Airman Certification Standards and Practical Test Standards for Airmen; Incorporation by Reference, 22482-22520 [2024-06644]
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Federal Register / Vol. 89, No. 63 / Monday, April 1, 2024 / Rules and Regulations
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
Table of Contents
14 CFR Parts 61, 63, and 65
[Docket No. FAA–2022–1463; Amdt. Nos.
61–153, 63–46, and 65–64]
RIN 2120–AL74
Airman Certification Standards and
Practical Test Standards for Airmen;
Incorporation by Reference
Federal Aviation
Administration (FAA), Department of
Transportation (DOT).
ACTION: Final rule.
AGENCY:
This final rule revises certain
regulations governing airman
certification. Specifically, the FAA
Airman Certification Standards and
Practical Test Standards comprise the
testing standard for practical tests and
proficiency checks for persons seeking
or holding an airman certificate and/or
rating. This rule incorporates these
Airman Certification Standards and
Practical Test Standards by reference
into the certification requirements for
pilots, flight instructors, flight
engineers, aircraft dispatchers, and
parachute riggers.
DATES: This final rule is effective on
May 31, 2024.
The incorporation by reference of
certain publications listed in this final
rule is approved by the Director of the
Federal Register as of May 31, 2024.
ADDRESSES: For information on where to
obtain copies of rulemaking documents
and other information related to this
final rule, see ‘‘How to Obtain
Additional Information’’ in the
SUPPLEMENTARY INFORMATION section of
this document.
FOR FURTHER INFORMATION CONTACT:
James Ciccone, Training and
Certification Group, AFS–810, Federal
Aviation Administration, 800
Independence Avenue SW, Washington,
DC 20591; telephone (202) 267–1100;
email ACSPTSinquiries@faa.gov.
SUPPLEMENTARY INFORMATION:
SUMMARY:
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List of Abbreviations and Acronyms
Frequently Used in This Document
Administrative Procedure Act (APA)
Aeronautical Information Manual (AIM)
Airman Certification Standards (ACS)
Airline Transport Pilot (ATP)
Area of Operation (AOO)
Aviation Rulemaking Advisory Committee
ACS Working Group (ARAC ACS WG)
Instrument Proficiency Check (IPC)
Instrument Flight Rules (IFR)
Incorporation by Reference (IBR)
Pilot-in-Command Proficiency Check (PIC
PC)
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Practical Test Standards (PTS)
Vertical Takeoff and Landing (VTOL)
Visual Flight Rules (VFR)
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I. Executive Summary
II. Authority for This Rulemaking
III. Background
A. Regulatory History and Incorporation by
Reference
B. Summary of NPRM
C. General Overview of Comments
IV. Discussion of the Final Rule and
Comments
A. Amendments to 14 CFR Parts 61, 63,
and 65
1. Comments Concerning IBR
2. Final Rule Amendments
B. Discussion of Comments Related to the
ACS and PTS
1. Broad ACS Comments
2. Specific ACS Comments
3. Universally Applicable Comments
C. ACS Testing Codes
D. Record of Changes
E. Out of Scope
V. Regulatory Notices and Analyses
A. Regulatory Evaluation
1. Baseline for the Analysis
2. Benefits
3. Costs
4. Regulatory Alternatives
B. Regulatory Flexibility Act
C. International Trade Impact Assessment
D. Unfunded Mandates Assessment
E. Paperwork Reduction Act
F. International Compatibility
G. Environmental Analysis
VI. Executive Order Determinations
A. Executive Order 13132, Federalism
B. Executive Order 13175, Consultation
and Coordination With Indian Tribal
Governments
C. Executive Order 13211, Regulations
That Significantly Affect Energy Supply,
Distribution, or Use
D. Executive Order 13609, Promoting
International Regulatory Cooperation
VII. Additional Information
A. Electronic Access and Filing
B. Small Business Regulatory Enforcement
Fairness Act
I. Executive Summary
This final rule adopts several
amendments to parts 61, 63, and 65 of
Title 14 of the Code of Federal
Regulations (14 CFR) by incorporating
by reference (IBR) the Airman
Certification Standards (ACS) and
Practical Test Standards (PTS). The ACS
and PTS 1 serve as the testing standards
for airman certificates and rating
practical tests. The FAA notes that,
while certain revisions were made to the
ACS and PTS as an outgrowth of public
notice and comment, there are no major
substantive changes to the testing
standards already in use or the conduct
of the practical test such that the scope
1 ACS and PTS refers to both the singular
Standard and the plural Standards throughout the
document.
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of the practical test is altered. Rather,
this final rule brings the ACS and PTS
into the FAA regulations through the
proper notice and comment process
required by the Administrative
Procedure Act (APA).2
As it pertains to pilots and flight
instructors, the FAA incorporates thirty
(30) pilot and flight instructor ACS and
PTS in part 61 by reference through a
centralized IBR section in new § 61.14.
The FAA directs compliance on the
respective practical tests and
proficiency checks with the appropriate
ACS and PTS through revisions in
§§ 61.43, 61.57, 61.58, 61.321, and
61.419. Additionally, the final rule adds
an appendix to part 61, which sets forth
which ACS or PTS applies to a
certificate and/or rating sought or
proficiency check.
This final rule also makes a nonsubstantive conforming amendment to
§ 61.157 to align the Airline Transport
Pilot (ATP) airplane and powered-lift
flight proficiency areas of operation
with the areas of operation contained in
the ATP and Type Rating for Airplane
Category ACS and ATP and Type Rating
for Powered-Lift Category ACS,
respectively. The FAA also revised
‘‘must consist of’’ in § 61.57(d) to ‘‘must
include’’ to align with the definitions in
§ 1.3. The remaining changes were made
to the ACS or PTS documents as a result
of public comments.
Further, this final rule revises certain
provisions applicable to flight engineers
in part 63 and aircraft dispatchers and
parachute riggers in part 65. First, this
final rule incorporates the Flight
Engineer PTS by reference in § 63.39.
Additionally, this final rule adds the
Aircraft Dispatcher PTS and Parachute
Rigger PTS to § 65.23, the existing
centralized IBR section for part 65, and
removes the now inapplicable Aviation
Mechanic PTS from the centralized
section. The final rule also revises the
appropriate sections in subparts C and
F of part 65 (i.e., §§ 65.59, 65.115,
65.119, 65.123) to require compliance
with the respective PTS. Finally, minor
editorial revisions remove gender
references in both parts.
II. Authority for This Rulemaking
The FAA’s authority to issue rules
regarding aviation safety is found in title
49 of the United States Code (U.S.C.).
Subtitle I, section 106, describes the
authority of the FAA Administrator to
promulgate regulations and rules.
Subtitle VII, Aviation Programs,
describes in more detail the scope of the
agency’s authority.
25
U.S.C. 551–559.
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This rulemaking is promulgated
under the authority granted to the
Administrator in 49 U.S.C. subtitle VII,
part A, subpart iii, chapter 401, Section
40113 (prescribing general authority of
the Administrator of the FAA with
respect to aviation safety duties and
powers to prescribe regulations) and
subpart III, chapter 447, sections 44701
(general authority of the Administrator
to promote safe flight of civil aircraft in
air commerce by prescribing regulations
and setting minimum standards for
other practices, methods, and
procedures necessary for safety in air
commerce and national security), 44702
(general authority of the Administrator
to issue airman certificates), and 44703
(general authority of the Administrator
to prescribe regulations for the issuance
of airman certificates when the
Administrator finds, after investigation,
that an individual is qualified for and
physically able to perform the duties
related to the position authorized by the
certificate). This rulemaking is within
the scope of that authority.
III. Background
A. Regulatory History and Incorporation
by Reference
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Under 49 U.S.C. 44703, the
Administrator of the FAA possesses the
authority to issue airman certificates
when the Administrator finds, after
investigation, that an individual is
qualified for and able to perform the
duties related to the position authorized
by the certificate.3 The Administrator
carries out this investigative authority
through 14 CFR parts 61, 63, and 65,
which prescribe the requirements for
airmen to obtain a certificate and a
rating.4 Each respective part contains
the general requirements for eligibility,
which include aeronautical knowledge,
flight proficiency, and aeronautical
experience, as applicable, for each
certificate and/or rating sought. This
generally includes the requirement to
3 By statute, a person may not serve in any
capacity as an airman with respect to a civil aircraft,
aircraft engine, propeller, or appliance used, or
intended for use, in air commerce without an
airman certificate authorizing the airman to serve in
the capacity for which the certificate was issued. 49
U.S.C. 44711. Title 49 U.S.C. 40102 sets forth the
definition and the duties of an airman.
4 Part 61 prescribes certification requirements for
pilots, flight instructors, and ground instructors;
part 63 prescribes certification requirements for
flight crewmembers other than pilots; part 65
prescribes certification requirements for airmen
other than flight crewmembers.
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pass a practical test 5 specific to the
certificate and/or rating sought.6
The FAA has long set forth certain
items for inclusion on the practical test.
Prior to 1997,7 these items were
included directly in the regulations of
part 61 through flight proficiency
requirements, resulting in an unclear,
broad, and discretionary testing
framework.8 After 1997, the FAA set
forth the flight proficiency requirements
for flight training and practical tests
with approved areas of operation, more
general in character than the flight
proficiency procedures and maneuvers,
and simplified the practical test general
procedures regulations to require
performance of the areas of operation.9
To implement testing on the areas of
operation, the FAA established the
Practical Test Standards (PTS) to define
acceptable performance of the flight
proficiency required to obtain a
certificate and/or rating. The PTS
applied to specific certificates and/or
ratings sought and incorporated the
areas of operation set forth in the
applicable regulations,10 some of which
continue to be used as the current
testing standard. Within the PTS, the
areas of operation were designated as
phases of the practical test, which were
further extrapolated into tasks
comprised of knowledge areas, flight
procedures, or maneuvers appropriate to
the overarching area of operation. An
5 A practical test is a test on the areas of
operations for an airman certificate, rating, or
authorization that is conducted by having the
applicant respond to questions and demonstrate
maneuvers in flight, in a flight simulator, or in a
flight training device, pursuant to 14 CFR 61.1.
Practical tests are administered by FAA inspectors
or private persons designated by the Administrator.
See 49 U.S.C. 44702(d).
6 Certain certificates do not require the successful
completion of a practical test to obtain the
certificate. For example, a certificate based on
military competency requires only a military
competency aeronautical knowledge test, pursuant
to § 61.73(b); similarly, a ground instructor
certificate requires only a knowledge test on
fundamentals of instructing and certain
aeronautical knowledge areas, pursuant to § 61.213.
7 Prior to 1997, the FAA referred to ‘‘practical
tests’’ as both ‘‘practical test’’ and ‘‘flight test.’’
8 For a comprehensive history of this testing
framework, see Airman Certification Standards and
Practical Test Standards for Airmen; Incorporation
by Reference notice of proposed rulemaking, 87 FR
75955 (Dec. 12, 2022).
9 Pilot, Flight Instructor, Ground Instructor, and
Pilot School Certification Rules final rule, 62 FR
16220 (Apr. 4, 1997).
10 As an example, the FAA published a PTS for
the Commercial Pilot—Rotorcraft Category,
Helicopter and Gyroplane Class. Within the PTS,
the areas of operation correspond with the areas of
operation set forth in 14 CFR 61.127(b)(3) and (4),
flight proficiency areas of operation for rotorcraft
category rating with a helicopter class rating and
rotorcraft category rating with a gyroplane class
rating, respectively.
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evaluator 11 is responsible for
determining whether the applicant
meets the standards outlined in the
objective of each required task evaluated
in accordance with the respective PTS.
While developed primarily in response
to part 61 revisions, the FAA also
published and utilized PTS for testing
under parts 63 and 65.12
In 2011, the FAA began establishing
the ACS to enhance the testing standard
for the knowledge and practical tests.13
In cooperation with the ACS Working
Group (ARAC ACS WG), established
through the Aviation Rulemaking
Advisory Committee (ARAC),14 the FAA
integrated ‘‘aeronautical knowledge’’
and ‘‘risk management’’ elements into
the existing areas of operations and
tasks set forth in the PTS. Therefore, the
ACS is a comprehensive presentation
integrating the standards for what an
applicant must know, consider, and do
to demonstrate proficiency to pass the
tests required for issuance of the
applicable airman certificate or rating.
Given this transition, in 2018,15 the
FAA removed the reference to the
practical test standards in § 61.43 and
broadened the regulatory language to
encompass the standards set forth in the
ACS, where applicable (i.e., where ACS
were developed and actively utilized for
practical tests of certain certificates).
The regulatory language adopted in
2018 that required applicants to perform
the tasks specified in the areas of
operation for the airman certificate or
rating sought is how the regulation is
situated prior to this final rule. The FAA
notes that some PTS have fully
transitioned to ACS, rendering those
11 As it applies to the particular evaluation, an
evaluator is considered: an aviation safety
inspector; pilot examiner (other than administrative
pilot examiners); training center evaluator (TCE);
chief instructor, assistant chief instructor, or check
instructor of a pilot school holding examining
authority; an instrument flight instructor
conducting an instrument proficiency check; or an
authorized sport pilot instructor.
12 Specifically, the FAA developed PTS for Flight
Engineers in part 63 and Aircraft Dispatchers,
Mechanic Technicians, and Parachute Riggers in
part 65. Because these regulations do not
specifically set out the areas of operation in the
same manner as part 61, respective sections of this
preamble further describe these PTS.
13 The ACS were intended to implement a new,
systematic approach to testing that would (1)
provide clearer standards, (2) consolidate
redundant tasks, and (3) connect the standards for
knowledge, risk management, and skills to the
knowledge and practical tests.
14 The Federal Advisory Committee Act, 5 U.S.C.
app. 2, provides authority for the ARAC. The ARAC
ACS WG includes the FAA, advocacy groups,
instructor groups, training providers, academic
institutions, and labor organizations.
15 Regulatory Relief: Aviation Training Devices;
Pilot Certification, Training, and Pilot Schools; and
Other Provisions final rule, 83 FR 30232 (Jun. 27,
2018).
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corresponding PTS obsolete.16 While
FAA continues to actively convert the
remaining PTS to ACS in collaboration
with the ARAC ACS WG, FAA will
continue to use the PTS for some
certificates and ratings pending
development of the corresponding ACS,
followed by further rulemaking.
While FAA did not originally
consider the content of the ACS and
PTS to contain regulatory requirements,
as stated in the 2018 final rule,17 use of
the ACS and PTS by the FAA impose
requirements on all persons seeking an
airman certificate or rating in parts 61,
63, and 65. As previously discussed, the
ACS and PTS require an applicant
seeking a certificate or rating to
complete specific tasks and maneuvers
to a minimum prescribed standard to
obtain the applicable certificate or
rating.18 As such, if an applicant does
not perform a task to the standard in the
applicable ACS or PTS, the applicant
cannot obtain the applicable certificate
and rating. Unsatisfactory performance
results in a notice of disapproval and/
or denial of the certificate or rating.
Because of the regulatory nature and
purpose of the ACS and PTS, this final
rule will IBR the ACS and PTS into
parts 61, 63, and 65 so that the
standards carry the full force and effect
of regulation. Due to the unique nature
of the ACS and PTS documents, which
are lengthy and contain complex
technical tables, the FAA finds it more
appropriate to incorporate these
standards by reference than to
reproduce the documents in their
entirety into the Code of Federal
Regulations (CFR), as subsequently
discussed in this preamble.
IBR is a mechanism that allows
Federal agencies to comply with the
requirements of the APA to publish
rules in the Federal Register and the
CFR by referring to material published
elsewhere.19 Material that is
incorporated by reference has the same
legal status as if it were published in full
in the CFR and Federal Register.
In accordance with 5 U.S.C. 552(a)
and 1 CFR part 51,20 the FAA makes the
ACS and PTS reasonably available to
interested parties by providing free
online public access to view on the FAA
Training and Testing website at
www.faa.gov/training_testing. The ACS
and PTS are available for download, free
of charge, at the provided web address.
The FAA will continue to provide the
ACS and PTS to interested parties in
this manner. For a complete list and
discussion of the ACS and PTS
incorporated by reference in parts 61,
63, and 65, see section IV.A.2. of this
preamble.
B. Summary of NPRM
On December 12, 2022, the FAA
published a notice of proposed
rulemaking (NPRM) titled ‘‘Airman
Certification Standards and Practical
Test Standards for Airmen;
Incorporation by Reference.’’ 21 In the
NPRM, the FAA proposed several
amendments to parts 61, 63, and 65 that
would IBR the ACS and PTS into the
certification requirements for pilots,
flight instructors, flight engineers,
aircraft dispatchers, and parachute
riggers. The rulemaking docket 22
contained all ACS and PTS proposed to
be incorporated by reference for public
inspection.
C. General Overview of Comments
The NPRM provided a 30-day
comment period, extended by an
additional 30 days,23 which ended on
February 10, 2023. The FAA received
comments from 39 individuals and
organizations. The majority of
comments came from individuals.
Several industry advocacy organizations
also submitted comments. Many
comments pertained to more than one
issue, such as specific revisions to
narrow elements and tasks within the
PTS and ACS, suggestions considered
out of scope, legal issues, and
administrative matters. In addition, the
majority of comments received
pertained to the content of the ACS and
PTS documents rather than the
proposed amendments to parts 61, 63,
and 65.
IV. Discussion of the Final Rule and
Comments
A. Amendments to 14 CFR Parts 61, 63,
and 65
In the NPRM, the FAA proposed to
amend parts 61, 63, and 65 to IBR the
ACS and PTS. The FAA received several
general comments opposed to this
rulemaking, as discussed in the
subsequent section. However, the FAA
did not receive any comments
suggesting alternatives to the
mechanism of IBR or to the regulatory
language in the proposed rule. The FAA
adopts the regulatory text as proposed
with various revisions to the ACS and
PTS themselves, as discussed in the
subsequent sections of this preamble.
The following table lists the
amendments made to the FAA
regulations by this final rule and a
summary of those provisions.
TABLE 1—AMENDMENTS TO FAA REGULATIONS
14 CFR § affected
61.14 .................................
61.43(a)(1) ........................
61.57(d)(1) ........................
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61.58(d)(1) ........................
Summary of provision
Create a centralized IBR section to IBR 30 ACS and PTS in part 61.24
Revise to require completion of the practical test for a certificate or rating to consist of performing the tasks specified in the areas of operation in the applicable ACS or PTS for the airman certificate or rating sought.
Revise to state that the instrument proficiency check (IPC) must consist of the areas of operation contained in the
applicable ACS as appropriate to the rating held.
Revise to require that the PIC proficiency check specifically consists of the areas of operation contained in the applicable ACS or PTS.
16 The FAA notes that it received one comment
on the NPRM to this final rule contending that
utilization of the ACS has increased the accident
rate overall, encouraging a transition back to the
PTS. However, the commenter did not provide any
data, nor has the FAA identified any correlation
between accidents and the ACS. The FAA intends
to continue moving forward with the ACS
framework as the testing standard for the
foreseeable future.
17 83 FR at 30269.
18 The FAA directs examiners to conduct
practical tests in accordance with the appropriate
ACS or PTS pursuant to FAA Order 8900.1, Vol. 5,
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Chap. 1, Sec. 4. The appropriate volume, chapter,
and section pursuant to the applicable certificate or
rating sought found in FAA Order 8900.1 provides
additional direction (e.g., Vol. 1, Chap. 2, Sec. 7,
Conduct a Private Pilot Certification, Including
Additional Category/Class Ratings, directs an
examiner to conduct the practical test in accordance
with the private pilot PTS in paragraph 5–382).
19 5 U.S.C. 552(a).
20 5 U.S.C. 552(a) requires that matter
incorporated by reference be ‘‘reasonably available’’
as a condition of its eligibility. Further, 1 CFR
51.5(b)(2) requires that agencies incorporating
material by reference discuss in the preamble of the
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final rule the ways that the material it incorporates
by reference is reasonably available to interested
parties and how interested parties can obtain the
material.
21 87 FR 75955.
22 Docket No. FAA–2022–1463.
23 Extension of Comment Period, Airman
Certification Standards and Practical Test
Standards for Airmen; Incorporation by Reference,
88 FR 24 (Jan. 3, 2023).
24 See section IV.A.2.i. of this preamble for a list
of the ACS and PTS that will be incorporated by
reference in new § 61.14.
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TABLE 1—AMENDMENTS TO FAA REGULATIONS—Continued
14 CFR § affected
Summary of provision
61.157(e) ..........................
61.321(b) ..........................
Revise areas of operation to align with the areas of operation in the ACS.
Revise to require the proficiency check for an additional light-sport aircraft privilege to consist of the appropriate
areas of operation contained in the applicable PTS.
Revise to require the flight instructor to successfully complete a proficiency check consisting of the appropriate
areas of operation contained in the applicable PTS for the additional category and class flight instructor privilege
sought.
Add appendix A to aid applicants and evaluators in identifying which ACS or PTS they must utilize for the certificate
and/or rating sought or proficiency check to administer.
Revise to IBR the Flight Engineer PTS and require an applicant for a flight engineer certificate to satisfactorily demonstrate the objectives in the areas of operation contained in the Flight Engineer PTS.
Revise the centralized IBR section in part 65 to include the Aircraft Dispatcher PTS and Parachute Rigger PTS.
Revise to require an aircraft dispatcher to satisfactorily demonstrate the objectives in the areas of operation specified in the Aircraft Dispatcher PTS.
Revise to require applicant to pass the oral and practical test by satisfactorily demonstrating the objectives in the
areas of operation in the Parachute Rigger PTS applicable as appropriate to the respective certificate (e.g., senior parachute rigger, master parachute rigger) and type rating sought.
Revise to require an applicant seeking an additional type rating to satisfactorily demonstrate the objectives in the
area of operation applicable to the type rating sought, as specified in the Parachute Rigger PTS.
61.419(b) ..........................
Appendix A to part 61 ......
63.39 .................................
65.23(a)(1) and (2) ...........
65.59 .................................
65.115 and 65.119 ...........
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65.123(b) ..........................
1. Comments Concerning IBR
The FAA received a number of
comments on the mechanism of IBR
itself. These comments included
enforcement questions, concerns about
the FAA’s justification for IBR, and
apprehension with the timeliness and
flexibility of the process. This section
responds to concerns about IBR and
provides additional explanation on IBR
as set forth by the APA.
First, the FAA received several
comments regarding the effects of this
rulemaking on enforcement. Two
individuals and the National
Association of Flight Instructors (NAFI)
expressed concern that incorporating
the ACS and PTS by reference may
subject an applicant who fails a task or
receives an unsatisfactory on a practical
test or that applicant’s instructor to an
enforcement action. Additionally, NAFI
expressed concern that the regulatory
nature of the ACS and PTS would leave
flight instructors who provide an
endorsement that an applicant has
received and logged the appropriate
training and is prepared for the practical
test 25 vulnerable to an enforcement
action should the applicant fail the
practical test. Further, one commenter
surmised that the regulatory nature of
the ACS and PTS would result in a
violated regulation when a designated
pilot examiner improperly fails an
applicant, resulting in an enforcement
or higher legal action.
The Administrator does not currently
bring enforcement actions against those
persons who fail practical tests, and this
final rule does not change such practice.
Section 61.43, as amended by this rule,
sets forth the general procedures for the
practical test and defines successful
25 See
14 CFR 61.39(a)(6).
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completion of a practical test in terms
of the tasks specified in the Areas of
Operation contained in the applicable
ACS or PTS. Similarly, §§ 61.57, 61.58,
61.321, and 61.419 set forth the
requirements for the completion of
certain proficiency checks (i.e.,
completion of the areas of operation
contained in the applicable ACS or
PTS). The FAA regards these
completion requirements as eligibility
standards that allow an applicant to
receive a certificate and/or rating (or
obtain an endorsement for the privileges
associated with completion of a
proficiency check). Therefore, the only
consequence for not successfully
completing a specific task within an
ACS or PTS as incorporated by
reference would be ineligibility for a
certificate and/or rating sought (or
privileges accompanying a proficiency
check). The applicant would simply not
receive the certificate, rating, or
privileges and would not be subject to
an enforcement action only on the basis
of unsatisfactory performance of the test
or check.
The FAA further emphasizes that, for
the same reasons, the regulatory nature
of the ACS and PTS would not affect the
responsibilities of a flight instructor
who endorses an applicant for purposes
of the practical test and that applicant
later fails the practical test. Specifically,
the FAA recognizes that an applicant
could fail a practical test for many
reasons that may not necessarily reflect
upon the flight instructor, including
stress, misunderstanding, or human
error. However, the FAA has the
authority to take appropriate action,
including reexamining or reinspecting a
certificate holder, to resolve questions
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as to the holder’s ongoing competence
or qualification to hold a certificate.26
Second, one commenter presented
opposition to the incorporation by
reference and believed the ACS and PTS
documents should never carry the full
force and effect of regulation. The
commenter’s reason is that ACS/PTS is
vague, which is by design because it is
a framework. The ACS/PTS is built to be
adaptive to situations and scenarios and
to evolve with the industry.
Additionally, the commenter stated that
the ACS and PTS are designed to allow
for an evaluator’s judgment,
individualism, interpretations, and
conclusions.
The FAA agrees that the ACS and PTS
documents are meant to be adaptive and
each practical test is to be tailored to the
applicant based on the identified
deficiencies of the knowledge test.
However, the ACS contain tasks that
must be performed to demonstrate an
individual has met the standard of
proficiency required to obtain an airman
certificate or rating. As such, the ACS
are regulatory, and IBR is the
appropriate process to make them so.
In addition, commenters took issue
with the general proposal to IBR the
PTS and ACS documents, stating that
there is a lack of sufficient justification
for incorporating these documents by
reference. The FAA holds the legal
authority to utilize the mechanism of
IBR as afforded by the APA. As
previously discussed, under 49 U.S.C.
44703, the Administrator of the FAA
possesses the authority to issue airman
certificates when the Administrator
finds after investigation that an
individual is qualified for and able to
perform the duties related to the
26 See
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position authorized by the certificate.
The Administrator carries out this
authority through 14 CFR parts 61, 63,
and 65, which prescribe the
requirements for airmen to obtain a
certificate and/or rating. The
Administrator ensures that an airman
possesses the requisite knowledge and
skill to obtain a certificate and/or rating
through demonstration of tasks
consisting of knowledge, risk
management, and skill elements as set
forth in the applicable ACS and PTS.
A rule 27 that has the force and effect
of law (i.e., one that imposes duties or
obligations on regulated parties)
constitutes a legislative rule that must
be adopted in accordance with the
notice and comment requirements of the
Administrative Procedure Act (APA).28
The tasks in the ACS and PTS are
legislative rules because an individual
must accomplish them to obtain an
airman certificate. As such, under the
APA, the regulated community must
receive notice and the opportunity to
comment on the standards. The FAA
determined that IBR presents the most
appropriate mechanism by which to
bring the ACS and PTS into the
regulations.29 The 33 total ACS and PTS
that accompanied the NPRM in the
docket consist of many pages and
include tables, notes, references,
appendices, and technical material.
Converting these standards into a format
acceptable to print directly in the CFR
would, first, draw upon considerable
agency resources, second, result in a
brand new presentation of material that
could present usability challenges for
the agency and regulated community,
and, third, substantially increase the
volume of material published in the
Federal Register and CFR.30 Therefore,
the FAA adopts the 33 ACS and PTS
through incorporation by reference, as
27 As defined in 5 U.S.C. 551, a ‘‘rule’’ is ‘‘the
whole or a part of an agency statement of general
or particular applicability and future effect
designed to implement, interpret, or prescribe law
or policy or describing the organization, procedure,
or practice requirements of an agency[.]’’
28 5 U.S.C. 552(A), which states, ‘‘except to the
extent that a person has actual or timely notice of
the terms thereof, a person may not in any manner
be required to resort to, or be adversely affected by,
a matter required to be published in the Federal
Register and not so published.
29 For the purpose 5 U.S.C. 552(a), matter
reasonably available to the class of persons affected
thereby is deemed published in the Federal
Register when incorporated by reference therein
with the approval of the Director of the Federal
Register.’’
30 The FAA notes that 1 CFR 51.7 states that an
assumption exists that a publication produced by
the same agency that is seeking its approval is
inappropriate for incorporation by reference.
However, the ACS and PTS overcame this
assumption under the standards set forth in 1 CFR
51.7(b) due to the unique qualities described here.
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proposed, and maintains that, for the
reasons discussed, sufficient support
exists for this rulemaking.
Some commenters claimed that the
process for changing the ACS and PTS
documents must be faster and more
flexible than the rulemaking process
will allow due to technological
developments and innovative aviation
advancements. Commenters,
particularly powered-lift manufacturers
and planned commercial operators,
emphasized the need to nimbly update
the ACS and PTS in a timely manner
and suggested the publication of clear
revision cycles, review and revision
timelines, and standing RINs.31
The FAA acknowledges industry’s
concerns that the rulemaking process
will prevent quick updates to the ACS
and PTS.32 Rulemaking will be required
to revise any document incorporated by
reference into the CFR. As the ACS and
PTS contain requirements for obtaining
an airman certificate or rating,
rulemaking will prevent the agency
from imposing new requirements on a
regulated entity by mandating a new
version of a document without adhering
to the APA (i.e., by not providing notice
of the changes and an opportunity for
comment). Essentially, because of the
regulatory status of ACS and PTS,
should the FAA want to add a task or
element to an ACS or PTS, the regulated
community would be given notice, have
the opportunity to provide input on the
addition, and have time to prepare
accordingly for the change before
effectivity. Given the technical nature of
the ACS and PTS, the FAA intends to
explore an expedited method for making
required updates through the
rulemaking process similar to the
process used for airspace actions. For
updates that are administrative in
nature, the FAA may use direct final
rules or interim final rules to make
those types of non-substantive
changes.33
2. Final Rule Amendments
The FAA’s regulatory amendments to
parts 61, 63, and 65 remain unchanged
from the proposal.
31 A Regulation Identifier Number (RIN) is
assigned to each regulatory action listed in the
Unified Agenda of Regulatory and Deregulatory
Actions.
32 The FAA notes that it is unaware of any
updates that were immediately required to respond
to a safety concern or new technology. If the FAA
determines that safety requires immediate action,
the FAA will take the necessary steps within all
available means to address that concern.
33 See ACUS Recommendation 95.4, Jun. 15,
1995; ACUS Recommendation 2011–5, Dec. 8, 2011;
and OMB Circular A–119, Jan. 27, 2016.
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i. Airman Certification Standards and
Practical Test Standards Incorporated by
Reference Into Part 61
Title 14 CFR part 61 sets forth the
certification requirements for pilots and
flight instructors. As previously stated,
new centralized IBR § 61.14 lists the
ACS and PTS incorporated by reference
into part 61 pertaining to pilots and
flight instructors. This section
summarizes 15 ACS and 15 PTS 34 that
require applicants to perform the tasks
specified in the areas of operation for
the airman certificate and/or rating
sought, as applicable.35 As noted
previously, the FAA makes the ACS and
PTS reasonably available for interested
parties to view by providing free online
public access to the FAA Training and
Testing website at www.faa.gov/
training_testing. Interested parties can
also download the ACS and PTS free of
charge at the provided web address.
Additionally, the FAA developed an
ACS companion guide for pilots
providing guidance on certain nonregulatory and technical information
previously published in the ACS.
Airman Certification Standards:
• FAA–S–ACS–2, Commercial Pilot
for Powered-Lift Category Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for commercial pilot
certification in the powered-lift
category.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs,
Landings, and Go-Arounds;
Performance Maneuvers; Navigation;
Slow Flight and Stalls; Emergency
Operations; High-Altitude Operations;
Special Operations; and Postflight
Procedures.
• FAA–S–ACS–3, Instrument
Rating—Powered-Lift Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for private pilot certification
in the instrument rating in the poweredlift category.
34 The FAA added dates to the regulatory text for
version and document identification. This date,
November 2023, provides a specific identification
month for the PTS and ACS.
35 In accordance with 1 CFR 51.5(b)(3), an agency
must summarize the material it incorporates by
reference in the preamble of the final rule. Sections
IV.A.2.ii. and iii. of this preamble summarize the
material incorporated by reference in 14 CFR parts
63 and 65.
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Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures; Air
Traffic Control (ATC) Clearances and
Procedures; Flight by Reference to
Instruments; Navigation Systems;
Instrument Approach Procedures;
Emergency Operations; and Postflight
Procedures.
• FAA–S–ACS–6C, Private Pilot for
Airplane Category Airman Certification
Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the private pilot
certification in airplane category, singleengine land and sea, and multiengine
land and sea classes.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Seaplane Base Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers and Ground
Reference Maneuvers; Navigation; Slow
Flight and Stalls; Basic Instrument
Maneuvers; Emergency Operations;
Multiengine Operations; Night
Operations; and Postflight Procedures.
• FAA–S–ACS–7B, Commercial Pilot
for Airplane Category Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the commercial rating in
the airplane category, single-engine land
and sea, and multiengine land and sea
classes.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Seaplane Base Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers and Ground
Reference Maneuvers; Navigation; Slow
Flight and Stalls; High-Altitude
Operations; Emergency Operations;
Multiengine Operations; and Postflight
Procedures.
• FAA–S–ACS–8C, Instrument
Rating—Airplane Airman Certification
Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for private pilot certification
in the instrument rating in the airplane
category.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures; Air
Traffic Control (ATC) Clearances and
Procedures; Flight by Reference to
Instruments; Navigation Systems;
Instrument Approach Procedures;
Emergency Operations; and Postflight
Procedures.
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• FAA–S–ACS–11A, Airline
Transport Pilot and Type Rating for
Airplane Category Airman Certification
Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for airline transport pilot and
type rating certification in the airplane
category.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Takeoffs and Landings; In-flight
Maneuvers; Stall Prevention; Instrument
Procedures; Emergency Operations; and
Postflight Procedures.
• FAA–S–ACS–13, Private Pilot for
Powered-Lift Category Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for private pilot certification
in the powered-lift category.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs,
Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation; Slow
Flight and Stalls; Basic Instrument
Maneuvers; Emergency Operations;
Night Operations; and Postflight
Procedures.
• FAA–S–ACS–14, Instrument
Rating—Helicopter Airman Certification
Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the instrument rating
helicopter.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures; Air
Traffic Control (ATC) Clearances and
Procedures; Flight by Reference to
Instruments; Navigation Systems;
Instrument Approach Procedures;
Emergency Operations; and Postflight
Procedures.
• FAA–S–ACS–15, Private Pilot for
Rotorcraft Category Helicopter Rating
Airman Certification Standards;
November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for private pilot certification
in the rotorcraft category helicopter
rating.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs,
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Landings, and Go-Arounds;
Performance Maneuvers; Navigation;
Emergency Operations; Night
Operations; and Postflight Procedures.
• FAA–S–ACS–16, Commercial Pilot
for Rotorcraft Category Helicopter
Rating Airman Certification Standards;
November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for a commercial pilot
certification in the rotorcraft category
helicopter rating.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs,
Landings, and Go-Arounds;
Performance Maneuvers; Navigation;
Emergency Operations; Special
Operations; and Postflight Procedures.
• FAA–S–ACS–17, Airline Transport
Pilot and Type Rating for Powered-Lift
Category Airman Certification
Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for airline transport pilot and
type rating certification in the poweredlift category.
Æ This ACS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Takeoffs and Departure Phase; In-flight
Maneuvers; Instrument Procedures;
Landings and Approaches to Landings;
Emergency Operations; and Postflight
Procedures.
• FAA–S–ACS–25, Flight Instructor
for Airplane Category Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the flight instructor
certificate in the airplane category.
Æ This ACS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Preflight Procedures; Airport and
Seaplane Base Operations; Takeoffs,
Landings, and Go-Arounds;
Fundamentals of Flight; Performance
and Ground Maneuvers, Slow Flight,
Stalls, and Spins; Basic Instrument
Maneuvers; Emergency Operations;
Multiengine Operations; and Postflight
Procedures.
• FAA–S–ACS–27, Flight Instructor
for Powered-Lift Category Airman
Certification Standards; November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
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standards for the flight instructor
certificate in the powered-lift category.
Æ This ACS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Preflight Procedures; Airport and
Heliport Operations; Hovering
Maneuvers; Takeoffs, Landings, and GoArounds; Fundamentals of Flight;
Performance Maneuvers; Ground
Reference Maneuvers; Slow Flight and
Stalls; Basic Instrument Maneuvers;
Emergency Operations; Special
Operations; and Postflight Procedures.
• FAA–S–ACS–28, Flight
Instructor—Instrument Rating PoweredLift Airman Certification Standards;
November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the flight instructor
instrument rating in the powered-lift
category.
Æ This ACS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Air Traffic Control Clearances
and Procedures; Flight by Reference to
Instruments; Navigation Aids;
Instrument Approach procedures;
Emergency Operations; and Postflight
Procedure.
• FAA–S–ACS–29, Flight Instructor
for Rotorcraft Category Helicopter
Rating Airman Certification Standards;
November 2023.
Æ This ACS communicates the
aeronautical knowledge, risk
management, and flight proficiency
standards for the flight instructor
certificate in the rotorcraft category
helicopter rating.
Æ This ACS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Preflight Procedures; Airport and
Helicopter Operations; Hovering
Maneuvers; Takeoffs, Landings, and GoArounds; Fundamentals of Flight;
Performance Maneuvers, Emergency
Operations; Special Operations; and
Postflight Procedures.
Practical Test Standards:
• FAA–S–8081–3B, Recreational Pilot
Practical Test Standards for Airplane
Category and Rotorcraft Category;
November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the recreational pilot practical tests
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for airplane, rotorcraft/helicopter, and
rotorcraft/gyroplane.
Æ This PTS contains the following
Areas of Operation for Single-Engine
Airplane: Preflight Preparation; Preflight
Procedures; Airport and Seaplane Base
Operations; Takeoffs, Landing, and GoArounds; Performance Maneuvers;
Ground Reference Maneuvers;
Navigation; Slow Flight and Stalls;
Emergency Operations; and Postflight
Procedures.
Æ This PTS contains the following
Areas of Operation for Rotorcraft
Helicopter: Preflight Preparation;
Preflight Procedures; Airport and
Heliport Operations; Hovering
Maneuvers; Takeoffs, Landing, and GoArounds; Performance Maneuvers;
Ground Reference Maneuvers;
Navigation; Emergency Operations; and
Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for Rotorcraft
Gyroplane: Preflight Preparation;
Preflight Procedures; Airport
Operations; Takeoffs, Landings, and GoArounds; Performance Maneuvers;
Ground Reference Maneuvers;
Navigation; Flight at Slow Airspeeds;
Emergency Operations; and Postflight
Procedures.
• FAA–S–8081–7C, Flight Instructor
Practical Test Standards for Rotorcraft
Category Gyroplane Rating; November
2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the flight instructor certification
practical tests for the rotorcraft category,
gyroplane class.
Æ This PTS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subjects;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Preflight Procedures; Airport
Operations; Takeoffs, Landings, and GoArounds; Fundamentals of Flight;
Performance Maneuvers; Flight at Slow
Airspeeds; Ground Reference
Maneuvers; Emergency Operations; and
Postflight Procedures.
• FAA–S–8081–8C, Flight Instructor
Practical Test Standards for Glider
Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the flight instructor certification
practical tests for the glider category.
Æ This PTS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
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Flight; Preflight Procedures; Airport and
Gliderport Operations; Launches and
Landings; Fundamentals of Flight;
Performance Airspeeds; Soaring
Techniques; Performance Maneuvers;
Slow Flight, Stalls, and Spins;
Emergency Operations; and Postflight
Procedures.
• FAA–S–8081–9E, Flight Instructor
Instrument Practical Test Standards for
Airplane Rating and Helicopter Rating;
November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the flight instructor certification
practical tests for airplane and
helicopter ratings.
Æ This PTS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subject Areas;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Air Traffic Control Clearances
and Procedures; Flight by Reference to
Instruments; Navigation Aids;
Instrument Approach Procedures;
Emergency Operations; and Postflight
Procedures.
• FAA–S–8081–15B, Private Pilot
Practical Test Standards for Rotorcraft
Category Gyroplane Rating; November
2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the private pilot practical test for the
rotorcraft category, gyroplane class.
Æ This PTS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport Operations; Takeoffs, Landings,
and Go-Arounds; Performance
Maneuver, Ground Reference
Maneuvers; Navigation; Flight at Slow
Airspeeds; Emergency Operations; and
Postflight Procedures.
• FAA–S–8081–16C, Commercial
Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating;
November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the commercial pilot practical test
for the rotorcraft category gyroplane
class.
Æ This PTS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport Operations; Takeoffs, Landings,
and Go-Arounds; Performance
Maneuvers, Navigation; Flight at Slow
Airspeeds; Emergency Procedures; and
Postflight Procedures.
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• FAA–S–8081–17A, Private Pilot
Practical Test Standards for LighterThan-Air Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the private pilot certification
practical tests for the lighter-than-air
category, balloon and airship classes.
Æ This PTS contains the following
Areas of Operation for the Balloon class:
Preflight Preparation; Preflight
Procedures; Airport Operations;
Launches and Landings; Performance
Maneuvers; Navigation; Emergency
Operations; and Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for the Airship class:
Preflight Preparation; Preflight
Procedures; Airport Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation;
Emergency Operations; and Postflight
Procedures.
• FAA–S–8081–18A, Commercial
Pilot Practical Test Standards for
Lighter-Than-Air Category; November
2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the commercial pilot certification
practical tests for the lighter-than-air
category, balloon and airship classes.
Æ This PTS contains the following
Areas of Operation: Fundamentals of
Instructing; Technical Subjects;
Preflight Preparation; Preflight Lesson
on a Maneuver to be Performed in
Flight; Preflight Procedures; Airport
Operations; Launches and Landings;
Performance Maneuvers; Navigation;
Emergency Operations; and Postflight
Procedures.
• FAA–S–8081–20A, Airline
Transport Pilot and Aircraft Type Rating
Practical Test Standards for Rotorcraft
Category Helicopter Rating; November
2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the airline transport pilot and type
rating practical tests for helicopters.
Æ This PTS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Takeoff and Departure Phase; Inflight
Maneuvers; Instrument Procedures;
Landings and Approaches to Landings;
Normal and Abnormal Procedures;
Emergency Procedures; and Postflight
Procedures.
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• FAA–S–8081–22A, Private Pilot
Practical Test Standards for Glider
Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the private pilot certification
practical test for the glider category.
Æ This PTS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Gliderport Operations;
Launches and Landings; Performance
Airspeeds; Soaring Techniques;
Performance Maneuvers; Navigation;
Slow Flight and Stalls; Emergency
Operations; and Postflight Procedures.
• FAA–S–8081–23B, Commercial
Pilot Practical Test Standards for Glider
Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the commercial pilot certification
practical test for the glider category.
Æ This PTS contains the following
Areas of Operation: Preflight
Preparation; Preflight Procedures;
Airport and Gliderport Operations;
Launches and Landings; Performance
Speeds; Soaring Techniques;
Performance Maneuvers; Navigation;
Slow Flight and Stalls; Emergency
Operations; and Postflight Procedures.
• FAA–S–8081–29A, Sport Pilot and
Sport Pilot Flight Instructor Rating
Practical Test Standards for Airplane
Category, Gyroplane Category, and
Glider Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the sport pilot practical tests and
proficiency checks for the airplane,
gyroplane, glider, and flight instructor.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Airplane: Preflight Preparation; Preflight
Procedures; Airport and Seaplane Base
Operations; Takeoffs, Landings, and GoArounds; Performance Maneuvers;
Ground Reference Maneuvers;
Navigation; Slow Flight and Stalls;
Emergency Operations; and Postflight
Procedures.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Gyroplane: Preflight Preparation;
Preflight Procedures; Airport
Operations; Takeoffs, Landings, and GoArounds; Performance Maneuvers;
Ground Reference Maneuvers;
Navigation; Flight at Slow Airspeeds;
Emergency Operations; and Postflight
Procedures.
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Æ This PTS contains the following
Areas of Operation for Sport Pilot
Glider: Preflight Preparation; Preflight
Procedures; Airport and Gliderport
Operations; Launches and Landings;
Performance Speeds; Soaring
Techniques; Navigation; Slow Flight
and Stalls; Emergency Operations; and
Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for Flight Instructor:
Fundamentals of Instructing; Technical
Subject Areas; and Preflight Lesson on
a Maneuver to be Performed in Flight.
• FAA–S–8081–30A, Sport Pilot and
Sport Pilot Flight Instructor Rating
Practical Test Standards for LighterThan-Air Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the sport pilot practical tests and
proficiency checks for the airship,
balloon, flight instructor.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Airship: Preflight Preparation; Preflight
Procedures; Airport Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation;
Emergency Operations; and Postflight
Procedures.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Balloon: Preflight Preparation; Preflight
Procedures; Airport Operations;
Launches and Landings; Performance
Maneuvers; Navigation; Emergency
Operations; and Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for Sport Pilot Flight
Instructor: Fundamentals of Instructing;
Technical Subject Areas; and Preflight
Lesson on a Maneuver to be Performed
in Flight.
• FAA–S–8081–31A, Sport Pilot and
Sport Pilot Flight Instructor Practical
Test Standards for Powered Parachute
Category and Weight-Shift-Control
Category; November 2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the sport pilot practical tests and
proficiency checks for the weight-shiftcontrol, powered parachute, and flight
instructor.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Weight-Shift-Control: Preflight
Preparation; Preflight Procedures;
Airport and Seaplane Base Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation; Slow
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Flight and Stalls; Emergency
Operations; and Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for Sport Pilot
Powered Parachute: Preflight
Preparation; Preflight Procedures;
Airport and Seaplane Base Operations;
Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation;
Emergency Operations; and Postflight
Procedures.
Æ This PTS contains the following
Areas of Operation for Sport Pilot Flight
Instructor: Fundamentals of Instructing;
Technical Subject Areas; and Preflight
Lesson on a Maneuver to be Performed
in Flight.
• FAA–S–8081–32A, Private Pilot
Practical Test Standards for Powered
Parachute Category and Weight-ShiftControl Aircraft Category; November
2023.
Æ This PTS establishes the
aeronautical knowledge, special
emphasis areas considered critical to
flight safety, and proficiency standards
for the private pilot practical tests for
powered parachute and weight-shiftcontrol.
Æ This PTS contains the following
Areas of Operation for Powered
Parachute: Preflight Preparation;
Preflight Procedures; Airport and
Seaplane Base Operations; Takeoffs,
Landings, and Go-Arounds;
Performance Maneuver; Ground
Reference Maneuvers; Navigation;
Emergency Operations; Night
Operations; and Postflight Procedures.
Æ This PTS contains the following
Areas of Operation for Weight-ShiftControl Aircraft: Preflight Preparation;
Preflight Procedures; Airport and
Seaplane Base Operations; Takeoffs,
Landings, and Go-Arounds;
Performance Maneuvers; Ground
Reference Maneuvers; Navigation; Slow
Flight and Stalls; Emergency
Operations; Night Operation; and
Postflight Procedures.
Furthermore, the FAA adopts the
proposed amendments pertaining to
proficiency checks in 14 CFR part 61.
As explained in the NPRM, proficiency
checks include a type of review of a
pilot’s proficiency generally required to
maintain existing privileges or to add
privileges in the case of sport pilot
certificates. A proficiency check differs
from a practical test. However,
evaluators refer to ACS and PTS when
performing pilot proficiency checks.
Therefore, the FAA adopts the proposed
conforming amendments to the
proficiency check requirements in part
61. Specifically, this final rule will
require that instrument proficiency
checks under § 61.57(d), PIC proficiency
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checks under § 61.58, and sport pilot
proficiency checks under §§ 61.321 and
61.419 occur in accordance with the
appropriate ACS or PTS, respectively,
through minor revisions to the
applicable section and cross-references
to the centralized IBR section.
ii. Practical Test Standard Incorporated
by Reference Into 14 CFR Part 63
Title 14 CFR part 63 contains the
certification requirements for flight
crewmembers other than pilots,
specifically flight engineers. The
standards contained in § 63.39(c)
require an applicant for a flight engineer
certificate with a class rating to pass a
practical test in the class of airplane for
which the applicant seeks a rating.
Revision of § 63.39(a) conforms to the
current practice and specifies that, to
pass the practical test for a flight
engineer certificate, an applicant must
satisfactorily demonstrate the objectives
in the areas of operation contained in
the Flight Engineer PTS. The Flight
Engineer PTS fashions the regulatory
subject areas into areas of operation in
the Flight Engineer PTS, which expands
regulatory subject areas into tasks that
list the required knowledge and skills
appropriate to the area of operation.36
Each task lists an objective, which
consists of the important elements that
an applicant must satisfactorily perform
to demonstrate competency.
Specifically, the objective includes what
the applicant must be able to do, the
conditions under which the task is to be
performed, and the minimum
acceptable standards of performance. As
noted previously, the FAA makes the
PTS reasonably available to interested
parties to view by providing free online
public access to the FAA Training and
Testing website at www.faa.gov/
training_testing. Interested parties can
download the ACS and PTS free of
charge at the provided web address.
iii. Practical Test Standards
Incorporated by Reference Into Part 65
Part 65 contains the certification
requirements for airmen other than
flight crewmembers, including aircraft
dispatchers and parachute riggers. Both
aircraft dispatchers and parachute
riggers must pass a practical test to
obtain a certificate and/or rating.37 Part
65 currently contains a centralized IBR
36 For example, § 63.39(b)(1) requires the
applicant to show that the applicant can
satisfactorily perform preflight inspection. Preflight
Inspection is implemented in the Flight Engineer
PTS as area of operation II: Preflight Procedures,
expanded into Task A: Preflight Inspection and
Flight Deck Setup and Task B: Preflight
Inspection—Exterior.
37 14 CFR 65.53(b)(4), 65.115, 65.119, and 65.123.
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section in § 65.23, which houses the
Aviation Mechanic General, Airframe,
and Powerplant Practical Test Standards
and the Aviation Mechanic General,
Airframe, and Powerplant Airman
Certification Standard; therefore, this
final rule adds the Aircraft Dispatcher
Practical Test Standards and Parachute
Rigger Practical Test Standards to
§ 65.23. As noted previously, the FAA
makes the PTS reasonably available to
interested parties to view by providing
free online public access to the FAA
Training and Testing website at
www.faa.gov/training_testing. Interested
parties can download the ACS and PTS
free of charge at the provided web
address.
The standards contained in the IBR
section at § 65.59 require an applicant
for an aircraft dispatcher certificate to
pass a practical test given by the
Administrator with respect to any one
type of large aircraft used in air carrier
operations. Because the aircraft
dispatcher practical test occurs in
accordance with the Aircraft Dispatcher
PTS, § 65.59 will direct compliance
with the Aircraft Dispatcher PTS
through a cross-reference to the
centralized IBR section of § 65.23. The
Aircraft Dispatcher PTS contains
knowledge and skill tasks that an
applicant must demonstrate to pass the
practical test for an Aircraft Dispatcher
certificate. Specifically, the Aircraft
Dispatcher PTS contains areas of
operation divided into tasks (e.g.,
navigation and aircraft navigation
systems, practical dispatch
applications). Each task lists an
objective, which consists of the
elements that the applicant must
perform satisfactorily to demonstrate
competency. Specifically, the objective
includes what the applicant must do,
the conditions for performance of the
task, and the minimum acceptable
standards of performance.
Additionally, both a senior parachute
rigger and a master parachute rigger
must pass an oral and practical test for
the issuance of a certificate; likewise,
the addition of a type rating to a
parachute rigger certificate (i.e., seat,
back, chest, and/or lap type rating)
requires the certificated parachute rigger
to pass a practical test.38 The Parachute
Rigger PTS governs (1) the oral and
practical test for obtaining a senior
parachute rigger certificate and master
parachute rigger certificate and (2) the
practical test for obtaining type ratings
for seat, back, chest, and lap; therefore,
§§ 65.115, 65.119, and 65.123(b) will
direct compliance with the Parachute
Rigger PTS through a cross-reference to
38 14
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the centralized IBR section of § 65.23.
The Parachute Rigger PTS contains
areas of operation (e.g., packing
parachutes, parachute operation, and
care), which divide into tasks applicable
to the certificate and/or rating sought.
For example, a task only involved in a
seat type rating is delineated as Packing
Seat Type Parachute (Seat Type Rating).
Each task lists an objective, which
consists of the elements the applicant
must satisfactorily perform to
demonstrate competency. Specifically,
the objective includes the ability tested,
the conditions under which the
applicant performs the task to
demonstrate ability, and the minimum
acceptable standards of performance.
This final rule removes gender
references within the aforementioned
parachute rigger regulations.
This final rule also makes one related
technical amendment in part 65.
Currently, as previously stated, the
centralized IBR section in part 65,
§ 65.23, houses both the Aviation
Mechanic ACS and PTS. As originally
implemented,39 §§ 65.75 and 65.79
provided that until July 31, 2023, a
mechanic applicant must pass a written
test including the subject areas on the
Mechanic PTS and pass an oral and
practical test by demonstrating the
prescribed proficiency in the assigned
objectives for the subject areas
contained in the Mechanic PTS.
Effective August 1, 2023, these sections
required the written, oral, and practical
tests to include the knowledge, risk
management, and skill elements, as
applicable, set forth by the Mechanic
ACS. While the Mechanic PTS was
removed from §§ 65.75 and 65.79 upon
the effective date of the ACS, the PTS
remained in the centralized IBR section.
Therefore, this final rule removes the
Mechanic PTS from § 65.23 as it is no
longer applicable.
to the ACS and PTS and explains the
FAA’s reasoning for not adopting the
changes as suggested or adopting a
tangentially related revision related to a
specific comment. The first section,
Broad ACS Comments (section IV.B.1. of
this preamble), responds to comments
that are generic in nature to a group of
ACS, whether by certificate level or
category/class of aircraft. The second
section, Specific ACS Comments
(section IV.B.2. of this preamble),
responds to comments intended to
apply only to one ACS or PTS. The last
section (section IV.B.3. of this preamble)
discusses universally applicable
comments noted by industry. For those
comments that the FAA agreed with and
therefore implemented the suggested
change, see section IV.D of this
preamble.
1. Broad ACS Comments
B. Discussion of Comments Related to
the ACS and PTS
As previously discussed, the FAA
provided the draft ACS and PTS
documents proposed to be incorporated
by reference in the docket for the NPRM
associated with this final rule.40 The
FAA received numerous comments on
these proposed ACS and PTS. These
comments included suggestions and
remarks on groupings of ACS and PTS,
as well as those specific to a single ACS/
PTS. This section of the preamble
addresses comments that the FAA
considered but did not result in changes
i. Airplane ACS
First, Flight Safety International (FSI)
commented on the use of the term
‘‘flight manual,’’ noting that the FAA’s
statement in the powered-lift ACS
introduction explains what the term
means and suggesting the addition of a
similar explanation in an introduction
to the Airplane ACS.41 The FAA notes
that ’’ Use of the Term Flight Manual’’
appears in the new Powered-Lift ACS
introduction section to provide context
needed to clarify that flight manual is
synonymous language with powered-lift
aircraft flight manual in order to
facilitate the introduction of a novel
aircraft. The generic term of flight
manual was used for the powered-lift
ACS in the absence of a specified
regulatory term for the powered-lift
flight manual as a result of rulemaking.
The FAA did not implement this change
to the Airplane and Rotorcraft ACS as it
is already used throughout the CFR.42
One commenter suggested limiting
preflight assessment in the Private,
Commercial, and Flight Instructor
Airplane ACS to only elements
involving inspection of the aircraft
without any elements related to human
factors. The commenter stated that
duplicated elements make the task
unfocused and difficult to learn and
assess. The FAA did not revise the ACS
in this final rule as an applicant’s
assessment of the aircraft, airman, and
environmental factors are all elements
that could affect the safety of flight;
therefore, an airman’s ability to evaluate
him/herself in relation to a flight is as
39 Aviation Maintenance Technician Schools
interim final rule, 87 FR 31391 (May 24, 2022);
Aviation Maintenance Technician Schools final
rule, 88 FR 38391 (Jun. 14, 2023).
40 FAA–2022–1463.
41 FSI provided a similar suggestion in relation to
the Helicopter ACS; the FAA declined to add an
explanation to the Helicopter ACS regarding flight
manuals for the same reasons provided herein.
42 See 14 CFR 21.5, 91.9.
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compelling from a safety standpoint as
assessing the aircraft and the weather.
Next, the ARAC ACS WG commented
on tasks related to runway incursion.
The ARAC ACS WG suggested adding a
runway incursion avoidance Task in the
Private and Commercial Airplane ACS
in AOO III, Airplane and Seaplane Base
Operations, to align with the dedicated
task that exists in the Instructor
Airplane ACS. The FAA recognizes the
importance of testing of runway
incursion avoidance and notes that this
topic is included in the private and
commercial airplane ACS throughout
multiple tasks. Runway incursion
avoidance will be tested in at least one
of the required tasks. An example of this
is AOO II Task C. Taxiing of the
Commercial Pilot Airplane ACS, which
requires the evaluator to determine that
the applicant exhibits satisfactory
knowledge, risk management, and skills
associated with taxi operations,
including runway incursion avoidance.
The FAA’s intention is to mitigate risk
by having the instructor applicant
demonstrate during the practical test
how to deliver training on the elements
and techniques for runway incursion
avoidance. Once certificated, the
instructor will train their students how
to avoid runway incursions as an
inherent element of providing training
on taxiing, takeoffs, and landings. This
training should minimize the amount of
runway incursions in the future. As a
result, the FAA did not create a separate
task for runway incursion avoidance in
these ACS.
Additionally, the ARAC ACS WG
suggested moving the Runway Incursion
Task found in the Instructor ACS, AOO
II, Technical Subject Areas, to AOO VI,
Airplane and Seaplane Base Operations.
The FAA did not implement this change
in the adopted ACS since evaluators
already incorporate this required task in
a plan of action.
One commenter suggested removing
certain risk management elements in the
Human Factors tasks from the Airplane
ACS.43 Specifically, the commenter
supported the removal of ‘‘Distractions,
task prioritization, loss of situational
awareness, or disorientation’’ and
‘‘Confirmation and expectation bias’’
from the Human Factors Task, as the
commenter believed they were vague.
The FAA notes that the ACS is intended
to communicate and demonstrate risk
management as a continuous process
that includes identification, assessment,
and mitigation of task-specific hazards
43 The Human Factors task is set forth in AOO I,
Task H in the Private and Commercial Airplane
ACS and AOO II, Task A in the Flight Instructor
Airplane ACS.
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that create risk. The risk management
element identifies the circumstantial
issues that aviators must consider in
association with a particular task.
Furthermore, risk management sections
in each ACS translate special emphasis
items and abstract terms into specific
behaviors relevant to each task. Human
factors circumstantial issues have been
identified by the National
Transportation Safety Board (NTSB)
incident and accident reports, which
include distractions and expectation
bias as factors.44 Furthermore, risk
management elements like distractions,
task prioritization, loss of situational
awareness, disorientation, and
confirmation expectation bias are
observable risk management behaviors
that are required to be evaluated. The
references identified within each task
provide additional information on the
objective and task elements, which
includes FAA guidance documents. As
such, the Human Factors task found in
the Airplane ACS provides reference
material that leads to the FAA Risk
Management Handbook (FAA–H–8083–
2, Pilot’s Handbook or Aeronautical
Knowledge, and Aeronautical
Information Manual (AIM), which aligns
with these ACS risk management
elements.
Additionally, the commenter also
recommended changing the risk element
‘‘aeromedical and physiological issues’’
to associate with the first knowledge
element of the Human Factors Task—
‘‘Symptoms, recognition, causes, effects,
and corrective actions associated with
aeromedical and physiological issues.’’
The commenter stated that this would
allow the examiner the ability to select
up to three sub-elements and ask the
applicant to identify, assess, and
mitigate the associated risks with those
sub-elements. Currently, the ACS
addresses the commenter’s concern as
examiners must select at least one
knowledge element and a risk
management element. This allows the
examiner to ask the applicant to assess
risk related to any knowledge element.
The FAA did not make the requested
changes to the risk management
elements identified in the Airplane ACS
Human Factors tasks for the reasons
noted above.
The same commenter suggested that
the Private, Commercial, and Flight
Instructor Airplane ACS return to how
slow flight was performed in the Flight
Instructor Airplane PTS, as the
commenter asserted that the ability to
fly an airplane at its absolute minimum
controllable airspeed proficiently is far
44 See, for example, NTSB Reports: DCA22LA126,
DCA18IA081, DCA06MA064.
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more beneficial than merely avoiding
the stall warning because ‘‘pilots will
get used to it.’’ The commenter also
stated that the new method of slow
flight implicitly teaches pilots
dependence on stall warning devices,
which, for many airplanes, is highly
inaccurate and advisory at best.
The FAA notes that Safety Alert for
Operations (SAFO) 17009 45 identified
loss of control in flight to be the leading
cause of fatal general aviation accidents
in the United States and commercial
aviation worldwide. As a result, the
prevention of loss of control in flight in
general aviation was identified on the
National Transportation Safety Board’s
(NTSB) 46 Most Wanted List of Safety
Improvements for 2017. With the release
of the Private Pilot—Airplane ACS in
June 2016, the FAA revised the slow
flight evaluation standard to reflect
maneuvering without a stall warning
(e.g., aircraft buffet, stall horn, etc.). The
FAA explained this change in SAFO
16010 47 as one approach to addressing
loss of control in flight accidents in
general aviation. One of the primary
concerns was that because a pilot would
no longer be evaluated while flying at
slow speeds with the airplane near the
critical angle of attack (AOA), that pilot
would not be trained or proficient at
maneuvering under these conditions or
understand what happens beyond the
stall warning. The FAA asserted in
SAFO 16010 and maintains the position
that a pilot is still expected to ‘‘know
and understand the aerodynamics
behind how the airplane performs from
the time the stall warning is activated to
reaching a full stall.’’ The FAA also
suggested that the pilot can acquire this
knowledge in ground training and
further consolidate it in the airplane
while practicing the Stall Task skills in
the ACS. At the time of the publication
of SAFO 17009, the FAA reviewed Slow
Flight and Stalls AOOs to ensure the
knowledge, risk management, and skill
elements adequately capture what a
pilot should know, consider, and do
relative to each task. As a result of that
review, the FAA revised the evaluation
standards for certain tasks for the
private pilot airplane and commercial
pilot airplane practical tests. The FAA
45 FAA SAFO 17009, Airman Certification
Standards (ACS): Slow Flight and Stalls, May 30,
2017.
46 NTSB 2017–2018 Most Wanted List of
Transportation Safety Improvements, https://
www.ntsb.gov/Advocacy/mwl/Documents/2017-18/
MWL-Brochure2017-18.pdf.
47 To avoid confusion the FAA has cancelled
SAFO 16010, Maneuvering During Slow Flight in
an Airplane, and replaced it with a more
comprehensive discussion in SAFO 17009, Airman
Certification Standards (ACS): Slow Flight and
Stalls.
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continues to adopt this rationale and
did not implement the requested
changes to the maneuvering during slow
flight tasks to the Private, Commercial,
or CFI Airplane ACS.
One commenter commented on
several elements pertaining to electronic
flight bags (EFB). First, the commenter
suggested making the use of an EFB a
separate knowledge element from route
planning within the Preflight
Preparation AOO since an EFB can be
used in other planning calculations. The
commenter also suggested removing
EFB as a risk element since it is not a
significant cause of accidents, incidents,
or violations and removing it as a skill
element since its use is implicit in S1,
Use an electronic flight bag (EFB), if
applicable. While the FAA understands
the commenter’s reasoning for wanting
a separate knowledge element for EFB,
the intention of the element is for the
applicant to demonstrate the
understanding of route planning using
an EFB if available. The FAA maintains
that use of an EFB is most appropriate
in the risk and skill portions of the
practical test because use of an EFB
presents potential hazards. An applicant
who supplies or uses an EFB might use
it in a manner that can affect the safety
of the flight, thereby necessitating
training and testing on the skill
necessary for its use and the inherent
risk of its use. In addition, the skill
elements pertaining to an EFB more
broadly encompass all use of an EFB by
the applicant for planning and
navigation.
ii. Helicopter ACS
The FAA received several general
comments to the Rotorcraft Category,
Helicopter Class ACS that apply to more
than one ACS (i.e., suggested changes in
the Private Helicopter would result in
related changes in the Commercial
Helicopter, which could, in turn, have
implications for the Flight Instructor
Helicopter ACS). This section
summarizes and responds to the
comments in a generalized fashion
rather than duplicate explanations per
specific ACS.
One commenter requested a change in
the Vertical Takeoff and Landing Task
under Hovering Maneuvers (AOO IV,
Task A, in both the Private and
Commercial Helicopter ACS) to specify
the position maintained within 4 feet of
a designated point should be with
minimal aft movement rather than with
no aft movement, as currently required.
The commenter stated that it is
unrealistic to require no aft movement
during the Vertical Takeoff and Landing
Task because the applicant may not be
able to prevent the helicopter from
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moving aft due to variable or gusty
winds, particularly in a light training
helicopter.
The FAA notes some components of
the Hovering Maneuver, Vertical
Takeoff and Landing task is a
demonstration of directional control and
maintaining a position over the
intended hover area, which inherently
includes rotor safety considerations.
The tail rotor of some helicopters cannot
be seen from the cabin, and it can be
difficult to judge distance from
obstructions. In addition, strong
crosswinds and tailwinds may require
the use of more tail rotor thrust to
maintain directional control. A
consideration to be evaluated prior to
the flight portion of the practical test is
to operate within the limitations of the
RFM, as well as the applicant’s personal
minimums. Personal minimums are
evaluated as part of the Preflight
Preparation, Human Factors task.
Operating within those parameters is a
demonstration of risk-based decision
making and should give the applicant
opportunity to demonstrate mastery of
the aircraft. As described in the ACS,
evaluators assess the applicant’s
mastery for specified tasks. The failure
to take prompt corrective action when
tolerances are exceeded is an example of
one typical area of unsatisfactory
performance for disqualification of a
task. The FAA did not implement this
change in the adopted ACS and
maintains no aft movement as the level
of expected proficiency for the task to
qualify for the certificate or rating and
maintain the level of safety required in
operations.
The same commenter stated the use of
the term ‘‘normal’’ as it applies to the
Normal Approach and Landing Task 48
is arbitrary and may vary given different
conditions, obstacles, etc. Specifically,
the commenter sought to replace the
standard of normal approach angle and
rate of closure with ‘‘constant’’
approach angle and rate of closure.
However, the FAA notes that it uses the
term ‘‘normal’’ intentionally to account
for a range of conditions pilots may
encounter. A descent angle is
established to provide distinguishing
differences between a shallow, normal,
and steep approach. The Helicopter
Flying Handbook, FAA–H–8083–21,
which is listed as a reference for this
particular task, describes a normal
approach technique as using a descent
angle between 7° and 12°, which
provides an open range to capture what
48 The FAA revised the task name ‘‘Normal
Approach and Landing’’ to ‘‘Normal and Crosswind
Approach’’ pursuant to comments, as set forth in
the Record of Changes in section IV.D., Table 3 of
this preamble.
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would be considered a ‘‘normal’’
maneuver.49 This descent angle range of
5° captures the margin of error that can
occur with slight variances in a person’s
normal approach visualized glide angle,
but still falls within those parameters.
Furthermore, the Helicopter Flying
Handbook defines the differences in
glide angles for a shallow approach at 3°
to 5° and a steep approach at 13° to 15°.
Additionally, the commenter
suggested revising an element 50
pertaining to determination of wind
direction to remove the option of the
use of visible wind direction indicators.
The commenter stated that the element,
as currently written, is superfluous. The
FAA disagrees with the commenter’s
contention. Helicopters often land and
take off from off-airport sites, which
requires the pilot to determine wind
direction using various means. The
element simply provides the pilot the
clear option to demonstrate competency
determining wind direction with or
without wind direction indicators.
The commenter also commented on
an element within AOO VI
(Performance Maneuvers), Task C:
Autorotation with Turns in a SingleEngine Helicopter in both the Private
and Commercial Helicopter ACS.
Specifically, the commenter stated that
the skill element that requires rolling
out of the turn no lower than 300 feet
above ground level (AGL) along the
flight path to the selected landing area
should be eliminated. The commenter
asserted the element is arbitrary and
unrealistic in some situations since
training helicopters may begin the
autorotation at 500 feet and would not
roll out of the turn above 300 feet. The
commenter stated that if the FAA felt
elimination was not necessary, then the
element should simply require roll out
no lower than the start of the cyclic
deceleration.
The FAA disagrees with the
commenter’s recommendation to
eliminate or alternatively modify this
skill element because a lower roll out
altitude decision point increases the risk
of helicopter accidents during training
and practical tests. In response to
helicopter autorotation training
accidents, the FAA published Advisory
Circular (AC) 61–140, Autorotation
Training, (dated August 31, 2016) which
discusses a study conducted by the FAA
49 FAA–H–8083–21, Helicopter Flying Handbook
(2019), Chapter 9: Basic Flight Maneuvers,
Approaches, Normal Approach to Hover (pp. 9–19).
50 The FAA notes that these comments
specifically reference AOO V, Task G in the Private
Helicopter ACS and AOO V, Task B in the
Commercial Helicopter ACS, but this element
appears in numerous instances throughout all
Helicopter ACS.
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and the Joint Helicopter Safety Analysis
Team regarding helicopter training
accidents. The AC outlines several
safety recommendations, including a
300 feet AGL decision check with
helicopter maneuvering completed
before that point and the helicopter
properly aligned with the intended
landing area. Given the Joint Helicopter
Safety Analysis Team findings, the FAA
finds the safety recommendation to
complete all turns by 300 feet AGL will
enhance safety during training and
practical tests since this change reduces
the tendency of the applicant to rush
through the turn and compromise safety
during the maneuver.
However, in light of the commenter’s
concern, and to enable pilots to rollout
from turns no lower than 300 feet AGL,
the FAA finds it necessary to increase
the minimum entry altitude of the
maneuver from 500 feet AGL to 700 feet
AGL. Accordingly, the FAA amended
appendix 3, Operational Requirements,
Limitations, & Task Information for
‘‘Autorotation with Turns in a SingleEngine Helicopter’’ to reflect a
minimum entry altitude of at least 700
feet AGL.
Next, FSI suggested moving the
‘‘Taxiing with Wheel-type Landing
Gear’’ Task from the Hovering
Maneuvers AOO to the Airport and
Heliport Operations AOO. The FAA
disagrees because an evaluator could
ask an applicant who brings a helicopter
with wheel-type landing gear to
demonstrate the Taxiing with Wheeltype Landing Gear Task on the ground
or perform a hover taxi, as well as other
related Tasks in the Hovering
Maneuvers AOO.
The ARAC ACS WG suggested that
autorotation Tasks should not include a
testing standard for accuracy of a
selected designated point. However, the
FAA expects an applicant to select and
reach a designated point within a given
tolerance as part of an autorotation
during a practical test. By choosing the
entry point and autorotating to a
selected spot, the applicant
demonstrates the skill to select and
maneuver to a suitable landing point
should an engine failure occur, much
like a realistic scenario in the national
airspace system (NAS).
Finally, the ARAC ACS WG noted
that the Helicopter ACS use the terms
IIMC or UIMC, which may lead the
aviation industry to assume each term
has a different meaning. The FAA notes
it uses both terms, unintended flight in
instrument meteorological conditions
(UIMC) and inadvertent instrument
meteorological conditions (IIMC) to
describe flight in visual meteorological
conditions (VMC) continued into
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instrument meteorological conditions
(IMC) without the intent to do so. Use
of either or both terms can inform the
public of how aviation agencies
categorize this event. The FAA
introduced UIMC in addition to IIMC in
the Helicopter Flying Handbook. The
FAA understands how confusion could
arise and has, therefore, removed the
word ‘‘or’’ from the affected ACS
element and replaced it with a solidus
symbol to read ‘‘IIMC/UIMC’’ to
communicate the interchangeability of
the phrases and acronyms.
iii. Powered-Lift ACS
While many commenters expressed
appreciation to the FAA for publication
of the six Powered-Lift ACS,
commenters also noted perceived
shortcomings to the Powered-Lift ACS
as a whole. Most prominently, Embraer
S.A., General Aviation Manufacturers
Association (GAMA), Wisk Aero, and
Lilium GmbH made similar comments
regarding powered-lift and a vertical
takeoff and landing (VTOL). The
commenters urged the FAA to ensure
the certification standards properly train
and qualify airmen, while considering
powered-lift’s imminent entry into
commercial operations. However, the
commenters indicated that the PoweredLift ACS series does not address the
complexities of every type of VTOL,
eVTOL, or powered-lift under
development. For context, Lilium
specifically provided an example that
the required aircraft knowledge related
to fuel, hydraulic, and pneumatic
systems would not apply to the allelectric Lilium jet, which does not
contain these components. As another
example, Embraer also expressed
concern that multiple tasks under the
In-Flight Maneuvers AOO within the
ATP/Type Rating Powered-Lift ACS and
the High-Altitude Operations AOO
within the Commercial Pilot for
Powered-Lift ACS may not apply to all
powered-lift types.
The FAA notes that it developed the
Powered-Lift ACS with the
understanding that these novel aircraft
will possess varied systems and
operating and handling characteristics
such that a rigid airman certification
framework would be difficult to
implement. In other words, the FAA
understands the flexibility required of
the corresponding ACS for airman
certification. For example, powered-lift
may be precluded from certain tasks due
to the powered-lift’s design (e.g., stalls
or circling approaches) that would be
required by the ACS. Conversely, a
powered-lift may be able to perform a
maneuver that was not contemplated by
the ACS, as adopted in this final rule.
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The FAA maintains that the six
Powered-Lift ACS, as adopted in this
final rule, provide an appropriate
practical test foundation for the
forthcoming powered-lift operations.
GAMA echoed this sentiment in a
comment, emphasizing that the
documents provide a suitable initial set
of standards. Additionally, Joby
Aviation acknowledged that the ATP
and Type Rating for Powered-Lift ACS
are relatively flexible and adaptable to
support new and novel technologies.
The FAA notes that while industry and
working groups provided extensive
input and expertise on the Powered-Lift
ACS, a degree of uncertainty remains
regarding the addition of discrete tasks
for certain powered-lift type ratings
based on the powered-lift’s unique
characteristics. Should the Flight
Standards Board Report (FSBR) and
type certification process reveal any
additional tasks not accounted for in the
ACS but considered essential to the
operation of the specific type of
powered-lift, the FAA may set forth
these tasks in a type-specific appendix
to the ACS, subject to incorporation by
reference in accordance with the APA.
On June 14, 2023, the FAA published
the proposed rule, Integration of
Powered-Lift: Pilot Certification and
Operations; Miscellaneous Amendments
Related to Rotorcraft and Airplanes.51
This NPRM proposed certain
flexibilities in consideration of the
differing powered-lift characteristics
related to type specific airman
certification testing. Upon publication
of the NPRM, stakeholders had an
opportunity to submit public comments
on the FAA’s proposal, including these
flexibilities. The FAA will consider all
significant comments received on the
powered-lift NPRM in the final rule and
reconcile the powered-lift final rule
(and necessary guidance) with this final
rule, as appropriate. Once the FAA
publishes the powered-lift final rule, the
FAA will actively engage with
stakeholders to develop or mitigate
Tasks and publish guidance specific to
differentiating powered-lift types as the
FAA and industry work to achieve
aircraft certification.
As it pertains to specific comment
from Lilium and Joby, the FAA
understands the use of the term ‘‘fuel’’
rather than the term ‘‘energy’’ could
lead individuals to reach the conclusion
that this term excludes electric
propulsion systems. In a prior
rulemaking, the FAA stated it did not
intend to preclude the certification of
electric propulsion systems or other
non-fossil-fuel-based propulsion
51 88
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systems, such as provided by certain
carbon-based fuels or electrical
potential, and the FAA maintains that
position now.52 The term ‘‘fuel systems’’
also includes a means of storage for the
electrical energy provided (e.g., batteries
that provide energy to an electric motor)
or devices that generate energy for
propulsion (e.g., solar panels or fuel
cells).53 The FAA considers it
appropriate to use the term ‘‘engine’’ for
powered-lift electric motors and
recognized this in the first special
conditions for an electric engine in
September 2021.54
Joby stated that elements with
applicability qualifiers and references to
appendix 3 of the ACS create
redundancy and confusion. Specifically,
a portion of appendix 3, Equipment
Requirements & Limitations, states that
an evaluator is expected to test the
applicant’s knowledge of the systems
that are available or installed and
operative during the ground and flight
portions of the practical test. Joby stated
this indicates a pilot should only be
checked in accordance with the
aircraft’s equipment, but that certain
applicability modifiers 55 used
throughout the ACS introduce
confusion by implying items without
the modifier are required, even if the
aircraft isn’t equipped accordingly. Joby
proposed the removal of all
applicability language from the element
and, instead, suggested reinforcement of
the applicability of appendix 3 language
to all elements.
The FAA did not remove applicability
language in the adopted ACS. As
previously discussed in this section, the
FAA understands that some poweredlift will not be equipped with certain
equipment that may be required in these
foundational ACS, just as some
equipment and elements in airplane and
helicopter ACS are inapplicable to some
airplanes and helicopter. Additionally,
due to emerging technology and active
aircraft certification projects, the FAA
cannot determine which one statement
would be applicable to all powered-lift
aircraft and cannot address this issue
without more input from stakeholders,
52 See Revision of Airworthiness Standards for
Normal, Utility, Acrobatic, and Commuter Category
Airplanes final rule, 81 FR 96572 (Dec. 30, 2016).
53 For example, § 91.205(b)(9) refers to a ‘‘[f]uel
gauge indicating the quantity of fuel in each tank.’’
In instances such as this, the fuel tank may refer
to the electric battery that stores the energy.
54 Special conditions: magniX USA, Inc.,
magni350 and magni650 Model Engines; Electric
Engine Airworthiness Standards final special
conditions, 86 FR 53508 (Sep. 27, 2021).
55 Joby refers to phrases such as ‘‘as applicable,’’
‘‘if applicable,’’ ‘‘if equipped,’’ ‘‘if installed,’’ ‘‘if
available,’’ and ‘‘as applicable,’’ and similar
language.
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as intended through an aircraft’s
certification process and Flight
Standards Board. These key processes
will inform airman certification
frameworks for each specific poweredlift type.
Next, Joby noted that the ACS
documents should not introduce new
requirements not found in part 61
without also modifying part 61. Joby
cited a few examples, including aviation
security concerns, required use of safety
restraint systems, and passenger safety
briefings. Joby stated that these items
are already captured more broadly in
Area of Operation I, Preflight
Preparation, Task E, The Code of
Federal Regulations. The FAA did not
adopt Joby’s recommendation. The FAA
seeks to place elements in Tasks where
they fit logically as part of an Area of
Operation and Task and maintains
transparency in knowledge and testing
expectations through explicit elements.
Specifically, because Areas of Operation
in part 61 are extensive in scope and
limited in detail, a Task or element
might not be referenced in 14 CFR. The
items identified by Joby are appropriate
elements of preflight procedures, thus
FAA has placed them in AOO II,
Preflight Procedures, consistent with the
same requirements in the airplane and
rotorcraft ACS. Because IBR is a process
by which content is made regulatory,
these items have the same standing as
the areas of operation listed in part 61.56
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iv. Glider PTS
The ARAC ACS WG and Soaring
Safety Foundation (SSF) provided a list
of suggested changes to the Glider PTS.
The FAA notes that several of the items
suggested by the ARAC ACS WG and
SSF simply set forth revisions without
explanation, safety rationale, or data for
the requested change. The FAA notes
that many elements already encompass
the commenters’ suggested items.57
56 If the FAA determined that a testing task was
required to determine the pilot’s proficiency, but
that task did not properly fit under an existing area
of operation, the FAA would revise the areas of
operation in part 61 to accommodate the new
testing task. The FAA most recently did this in the
Operations of Small Unmanned Aircraft Systems
over People final rule (86 FR 4314, Jan. 15, 2021)
when it added night operations and operations over
people to the list of knowledge areas for airman
certification under part 107.
57 For example, within the Commercial Glider
PTS, the ARAC ACS WG suggested modification of
the weather Task to include low-level wind shear
conditions and techniques for avoiding them. The
FAA notes that evaluators can cover this
information when asking the applicant to explain
hazards associated with flight in the vicinity of
thunderstorms (item 3). As another example, the
ARAC ACS WG suggested the addition of selfimposed medical stress in the Aeromedical Factors
Task (AOO I, Task F). The FAA notes that item 1.g.
(stress and fatigue) within Task F may encompass
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Commenters also suggested amendment
of many Fundamentals of Instructing
(FOI) elements in the Glider Flight
Instructor PTS to align with the
Aviation Instructor’s Handbook, which
the FAA notes is listed as a reference.
The Glider PTS is slated to transition to
ACS in the future, and the agency may
consider these items when collaborating
with the ARAC ACS WG to draft the
Glider ACS. To note, the FAA agreed
with several suggestions and
implemented corrections in the Glider
PTS adopted with this final rule. These
accepted changes are detailed in section
IV.D of this preamble.
SSF suggested the addition of clearing
procedures in all flight maneuver tasks
in the Private, Commercial, and Flight
Instructor Glider PTS. The FAA notes
while only some Tasks may list that the
applicant clears the area before a
maneuver, the unsatisfactory
performance section of the Glider PTS
specifically discusses the failure to use
proper and effective visual scanning
techniques to clear the area before and
while performing maneuvers. Because
this is incorporated within the practical
test via the appendix, the FAA does not
see a need to add the specific element
in each task. When the PTS transitions
to the ACS, it may be more appropriate
to delineate clearing the area as a skill
task at that time.
Other SSF comments related to slips
with or without the use of drag devices
during the skill portion of the Slip to
Landing Task. The FAA notes not all
gliders have the capability to
demonstrate a slip with drag devices
extended. Therefore, the Slips to
Landing task appropriately tests the
airman’s knowledge of slips with and
without the use of drag devices. Only
the skill element requires a slip without
the use of drag devices. No justification
or safety information was provided with
the comment, and the FAA did not
make a change.58
v. Commercial Pilot ACS
As part of FSI’s comments
encouraging the FAA to strive for
uniformity within the various ACS and
PTS, FSI noted inconsistencies
all types of stress, including self-imposed medical
stress. Further, The ARAC ACS WG suggested
adding Notices to Air Missions (NOTAMs) as an
item in AOO VIII, Navigation, Task B, National
Airspace System for the Private and Commercial
PTS. The FAA notes that Task B (National Airspace
System) in this AOO includes all necessary
information for the applicant to function in the
NAS and does not exclude NOTAMs.
58 The SSF referenced an FAA Designee Update
from January 2000 published by the FAA in their
justification for changes to the PTS; however, the
FAA is unable to locate the reference document
and, therefore, is unable to determine the proposed
wording change.
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pertaining to the Night Operations tasks
among the Commercial ACS.
Specifically, FSI noted that the
Commercial Airplane ACS has no Night
Operations task, while the Commercial
Powered-Lift ACS has a designated
Night Operations task under AOO I,
Preflight Preparation, and the
Commercial Rotorcraft-Helicopter ACS
includes the Night Operations task
under AOO IX, Special Operations. The
FAA agrees that for uniformity among
the ACS Commercial Pilot documents
the Night Operations task for both
Powered-Lift and Helicopter categories
now appear in AOO I, Preflight
Preparation. The helicopter and
powered-lift aircraft conduct lower
altitude operations and off-airport night
operations into unprepared landing
areas, which involve a higher degree of
risk due to an increase in
unpredictability compared to standard
airport operations. As a result, the FAA
included the Night Operations task in
the Powered-Lift and Helicopter ACS
and did not add it to the Commercial
Airplane ACS.
vi. Instrument Rating and Flight
Instructor—Instrument Rating ACS
The FAA proposed to incorporate by
reference five ACS and PTS to obtain an
instrument rating and/or an instrument
instructor rating.59 Similar to the
helicopter comments, some commenters
suggested revisions for one specific
Instrument ACS or PTS that would
apply to the entire series of instrument
and flight instructor-instrument rating
standards. This section summarizes
those comments related to the
Instrument ACS and PTS and responds
accordingly.
First, one commenter stated that the
Instrument Proficiency Check (IPC) Task
table in the Instrument ACS appendix
has no regulatory basis and
inappropriately mandates a certain
minimum number of Tasks within the
corresponding AOOs mentioned in 14
CFR 61.57. The commenter further
asserted that the addition of an IPC Task
table with specific Tasks should not be
part of the ACS/PTS IBR rule and
should be a separate rulemaking process
to allow comments on the FAA’s
selection of Tasks. The commenter
suggested either (1) removing the IPC
requirements from the ACS and issuing
a subsequent rulemaking to address the
topic of IPC requirements (with content
added to AC 61–98 in the meantime) or
59 Instrument Rating—Airplane, Instrument
Rating—Helicopter, Instrument Rating—PoweredLift; Flight Instructor Instrument—Airplane and
Helicopter, Flight Instructor Instrument—PoweredLift.
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(2) reissuing the NPRM to solicit
comments on the IPC requirements.
As previously explained, § 61.57(d),
prior to this final rule, listed the specific
AOOs for an IPC. In practice, these
AOOs were also set forth in the
applicable PTS or ACS with an
accompanying task table. Therefore, in
the NPRM, the FAA simply proposed to
remove the specific AOOs from the
regulation itself and, instead, provide a
table within the applicable ACS in the
appendix with the specific AOOs and
tasks to be tested. The footprint of the
IPC was neither expanded nor were
additional AOOs and tasks added to the
IPC ACS and PTS via the tasking table.
In other words, the previously required
minimum AOOs and Tasks for an IPC
remain unchanged. Additionally, the
FAA amended the regulatory text for
§ 61.57(d) to direct a person to the
appropriate ACS to identify the
requirements for an IPC. Within the
appropriate ACS is an IPC task table that
identifies the minimum required AOOs
and tasks. This change incorporates
language to specify the minimum
requirements of an IPC, but also allows
for additional tasks if the instructor
deems it necessary to determine
instrument proficiency.
To illustrate, pursuant to § 61.57(d)
prior to this final rule, the IPC
requirements included at least: air
traffic control clearances and
procedures, flight by reference to
instruments, navigation systems,
instrument approach procedures,
emergency operations, and postflight
procedures. In examining the IPC table
in, for example, the Instrument Rating—
Airplane ACS, the AOOs/Tasks
correspond in the following manner:
TABLE 2—EXAMPLE COMPARISON OF IPC TASKS
Area of operation set forth by § 61.57(d)(1) prior
to this final rule
§ 61.57(d)(1)(i): Air traffic control clearances
and procedures.
§ 61.57(d)(1)(ii): Flight by reference to instruments.
§ 61.57(d)(1)(iii): Navigation systems .................
§ 61.57(d)(1)(iv): Instrument approach procedures.
§ 61.57(d)(1)(v): Emergency operations .............
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§ 61.57(d)(1)(vi): Postflight procedures ..............
The commenter stated that the tasking
table would transform the task table
from strong guidance about what the
FAA considers a representative set of
tasks to affirmative regulations
mandating the use of the task table,
thereby decreasing a flight instructor’s
discretion in conducting the IPC. As
illustrated in the table, the tasking table
does narrow some of the AOOs;
however, the evaluator retains
discretion to select multiple knowledge
and risk management elements within
those tasks. Additionally, where the
FAA narrowed the area of operation to
a task, it does not change the parameters
expected of the check. An evaluator
would cover such tasks under
§ 61.57(d)(1) as written prior to this final
rule and, therefore, the table does not
add any additional requirements to the
proficiency check.
Finally, to the extent that the
commenter suggested the ACS and PTS
documents were not an appropriate
means to establish the IPC requirements,
because an IPC is designed to ensure
that a pilot has maintained the
instrument skills required for initial
certification, the FAA deems the ACS
and PTS the appropriate mechanism to
delineate the necessary tasks for an IPC.
The FAA notes that this rulemaking
extended an opportunity for the
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Corresponding AOO/task in the instrument rating—Airplane ACS IPC table
AOO III (Air Traffic Control Clearances and Procedures), Task B: Holding Procedures in Air
Traffic Control Clearances.
AOO IV (Flight by Reference to Instruments), Task B: Recovery from Unusual Flight Attitudes
in Flight by Reference.
AOO V (Navigation Systems), Task A: Intercepting and Tracking Navigational Systems and
DME Arcs.
AOO VI (Instrument Approach Procedures), All Tasks.
AOO VII (Emergency Operations), Task B: One Engine Inoperative (Simulated) during
Straight-and-Level Flight and Turns; Task C: Instrument Approach and landing with an Inoperative Engine (Simulated); and Task D: Approach with Loss of Primary Flight Instrument Indicators.
AOO VIII (Postflight Procedures), All Tasks.
regulated community to provide
comments related to any and all of the
ACS and PTS, which included
substantive comments on required tasks
and content contained in the
appendices.
Relatedly, the ARAC ACS WG
commented that § 61.57(d) does not
incorporate ACS–8, the Instrument
Rating—Airplane ACS, by reference.
Based on the comment provided, the
FAA could not determine the rationale
behind the ARAC ACS WG’s perception.
The language, as adopted by this final
rule, requires that an IPC must include
the AOOs contained in the applicable
ACS, incorporated by reference by
§ 61.14 as listed in new appendix A to
part 61 appropriate to the rating held.
Appendix A to part 61 provides that the
Instrument Rating—Airplane ACS, as
set forth in § 61.14, applies to a person
seeking an Instrument Proficiency
Check—Airplane.
Further, the ARAC ACS WG
commented on the required tasks set
forth by the IPC table pertaining to AOO
VI (Instrument Approach Procedures)
stating that the IPC table should only
require one non-precision approach and
not require all tasks in the AOO, which
effectively requires evaluation of two
different non-precision approaches via
Task A and the note regarding that task
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in appendix 3. As the FAA previously
stated, an IPC is designed to ensure that
a pilot has maintained the instrument
skills required for initial certification.
Additionally, it is possible a pilot could
be non-current for many years, prior to
fulfilling the IPC requirements. As a
result, in the interest of safety, the FAA
did not change the requirement.
Additionally, the ARAC ACS WG
sought confirmation regarding a revision
to Localizer Performance with Vertical
guidance (LPV) approaches.
Specifically, the ARAC ACS WG noted
that the testing standard within the
published Instrument Rating—Airplane
ACS prior to this final rule (FAA–S–
ACS–8B) considers the LPV approaches
to be non-precision if the Decision
Altitude (DA) is more than 300 feet and
precision if the DA is less than 300 feet.
The ARAC ACS WG stated that the
Instrument Rating—Airplane ACS set
forth with the NPRM to this final rule
(FAA–S–ACS–8C) does not address LPV
as in the past and sought confirmation
as to whether this change was
intentional. The FAA notes that it made
this change intentionally to align the
Instrument ACS with the criteria in
Advisory Circular (AC) 90–107,
Guidance for Localizer Performance
with Vertical Guidance and Localizer
Performance without Vertical Guidance
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Approach Operations in the U.S.
National Airspace System. Because a
precision approach includes any
approach flown to a DA with approved
vertical guidance, the FAA removed the
300 feet height above touchdown (HAT)
in all category Instrument ACS and the
Flight Instructor—Instrument ACS, as
criteria to determine whether an RNAV
(RNP) or RNAV (GPS) approach with
LPV published minimums could count
as a precision approach during a
practical test. Appendix 3: Aircraft,
Equipment, and Operational
Requirements & Limitations for
Precision Approach, states that an
applicant must accomplish a precision
approach to the decision altitude (DA)
using aircraft navigational equipment
for centerline and vertical guidance and
that precision approach is a standard
instrument approach procedure to a
published decision altitude using
provided approved vertical guidance.
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vii. Private Pilot PTS
One commenter suggested including
elements in the Private Pilot PTS on the
subject area of knowledge and
proficiency in conducting a post-flight
self-review. The commenter contended
that post-flight self-checks are important
for continued improvement and should
include knowledge and proficiency in
National Aeronautics and Space
Administration (NASA) Aviation Safety
Reports, NTSB accident reports, and
how the FAA WINGS program can help
applicants with improving and
maintaining knowledge, skills, and
proficiency. The FAA encourages pilots
at all levels to continually evaluate their
performance before, during, and after
any flight operation, but notes that
making a post-flight review part of the
practical test could affect the post-flight
task in all ACS and PTS documents. The
FAA also describes a post-flight analysis
in the Pilot’s Handbook of Aeronautical
Knowledge, FAA–H–8083–25, which
states, ‘‘when you have safely secured
the airplane, take the time to review and
analyze the flight as objectively as you
can. Mistakes and judgment errors are
inevitable; the most important thing is
for you [pilot applicant] to recognize,
analyze, and learn from them before
your next flight.’’ This does not prevent
a pilot from using additional means of
research and resources during their
analysis. However, the FAA does not
test an applicant’s ability to conduct a
post-flight self-evaluation at the
conclusion of any practical test. The
FAA requires the evaluator to perform a
post-flight briefing of the applicant’s
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performance.60 Therefore, adding a
standard for an applicant to conduct a
post-flight self-assessment, review of
aviation safety reporting, or search of
the NTSB database would be
superfluous to the responsibilities of an
evaluator.
2. Specific ACS Comments
i. FAA–S–ACS–11A, ATP and Type
Rating for Airplane ACS, November
2023
As part of FSI’s broader notation that
the ACS in general should align as
much as possible in structure, content,
layout, and tasks, FSI suggested a
number of specific revisions to the ATP
and Type Rating for Airplane ACS
(referred to as the ATP Airplane ACS for
purposes of this section) to encourage
uniformity. First, FSI commented that
the ATP Airplane ACS does not contain
a Removal of VFR Type Rating table
while the Powered-Lift ATP ACS does.
The FAA notes that the Airplane ATP
ACS includes a type rating limited to
VFR table for a type rating practical test
conducted in aircraft not capable of
instrument flight. No table exists for
testing to remove this specific limitation
as the specific airplane type does not
have IFR capability. On the contrary,
powered-lift that are capable of
instrument maneuvers and procedures
present a situation that differs from
other categories of aircraft because the
FAA has not previously required a type
rating for each type of aircraft that falls
within a broad category of aircraft.
Therefore, the Powered-Lift ATP ACS
includes a VFR only table for the
purposes of initial certification to
coincide with the Powered-Lift NPRM
(as previously discussed) that proposes
a Special Federal Aviation Regulation
(SFAR) for alternate eligibility
requirements to safely certificate initial
groups of powered-lift pilots. As a
result, the ACS documents cannot
succinctly align regarding the Removal
of VFR Type Rating Table.
FSI also suggested adding flightdeck
management to the Airplane ATP ACS
for uniformity of content. The FAA
notes that the ATP Airplane ACS
currently encompasses the flightdeck
management concept and includes it
throughout the ACS. Examples of
flightdeck management are: AOO II,
Task C, K6, which requires applicants to
demonstrate understanding of
appropriate flightdeck activities prior to
taxi and AOO I Task E, Air Carrier
Operations, which requires applicants
to exhibit the skill to apply crew
resource management (CRM) principles
60 See FAA Order 8900.1, Volume 5, Chapter 2,
Section 1, Paragraph 5–222.
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in a crew environment. As a result, the
FAA is not amending the Airplane ATP
ACS, as the flightdeck management
concept is already present.
One commenter asked for clarification
in appendix 3 of the ATP Airplane ACS,
specifically pertaining to AOO V., Stall
Prevention. Within Tasks A, B, and C,
the appendix states that when
accomplished in a flight simulation
training device (FSTD), stall entries
should be consistent with the expected
operational environment for a stall in
cruise flight with no minimum entry
altitude defined. The commenter
inquired whether ‘‘expected operational
environment’’ means something similar
to a scenario-based event or actually
performing the stall event at the location
and operation of flight where the stall
would occur (e.g., from the landing
configuration stall at the minimum
descent altitude for a non-precision
approach in IMC conditions). The FAA
notes that air agencies and air carriers
using FSTDs train stall recovery
procedures using realistic scenarios that
have no need to meet the altitude
recovery limits that apply to practical
tests conducted in an actual airplane.
Therefore, the note in the appendix
simply allows for scenario-based testing
of the stall prevention task using an
FSTD that mimics real world
experiences in an operational
environment (e.g., weather, airspace,
hazards, etc.) to meet the flight testing
objectives without an altitude
limitation. In other words, the evaluator
should design the scenario such that the
stall prevention occurs at a point that
provides realistic testing.
The same commenter noted the ATP
Airplane ACS appendix 3 contains
information pertaining to a part 25 or
§ 23.3(d) commuter multiengine
airplane. The commenter noted that 14
CFR 23.3 is an obsolete regulation. The
FAA agrees; however, air carriers and
operators still use aircraft certificated
under the obsolete regulation and the
statement applies to those aircraft. The
FAA modified the sentence to clarify
that these airplanes were certificated as
commuter multiengine airplanes under
14 CFR part 23, historical § 23.3(d).61
61 14 CFR 23.3(d) provided that the commuter
category is limited to multiengine airplanes that
have a seating configuration, excluding pilot seats,
of 19 or less, and a maximum certificated takeoff
weight of 19,000 pounds or less. The commuter
category operation is limited to any maneuver
incident to normal flying, stalls (except whip stalls),
and steep turns, in which the angle of bank is not
more than 60 degrees. In 2016, part 23 was
reorganized pursuant to the Small Airplane
Revitalization Act of 2013 (Pub. L. 113–53, 49
U.S.C. 44704 note), resulting in the relocation and
revision of § 23.3(d). See Revision of Airworthiness
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A commenter suggested using ‘‘must’’
instead of ‘‘shall’’ in appendix 1 of the
ATP Airplane ACS (which would result
in a change to all ACS as boilerplate
language). The FAA acknowledges that
FAA Order 1000.36 (FAA Writing
Standards) advises against the use of
‘‘shall’’ and recommends the use of
‘‘must’’ to impose requirements. The
FAA retained the use of ‘‘shall’’ in this
single instance and notes that it has the
meaning set forth in 14 CFR 1.3.62
Consistent with that meaning, its use
constitutes a requirement for examiners.
ii. FAA–S–ACS–17, ATP and Type
Rating for Powered-Lift ACS, November
2023
As previously noted, FSI suggested
that the content of the ATP ACS for
airplane, helicopter, and powered-lift
should align as much as possible and,
specifically, include second-incommand (SIC) in appendix 1 of the
ATP and Type Rating for Powered-Lift
ACS (referred to as the ATP PoweredLift ACS for purposes of this section).
While the FAA is in favor of uniformity
where appropriate, in this case, the ACS
are intentionally designed to be
different. The Airline Transport Pilot
and Type Rating for Airplane Category
ACS specifically addresses a ‘‘SecondIn-Command Required’’ Limitation that
is specific to aircraft that allow for a
pilot flight crew compliment of single or
dual crew as required by § 61.43(b). This
table is not applicable to powered-lift
aircraft at this time and therefore not
listed in appendix 1 of the ATP and
Type Rating for Powered-Lift ACS.
FSI suggested the inclusion of an Air
Carrier Operations Task in the ATP
Powered-Lift ACS, specifically in AOO
I (Preflight Preparation), stating that
operators plan to use powered-lift in
part 135 operations and most of the
knowledge tasks apply to obtaining an
ATP certificate in powered-lift. While
the FAA understands FSI’s reasoning for
seeking addition of this task to the
powered-lift ACS, the FAA first notes
that the air carrier operations task was
derived from Public Law 111–216,
section 217, to apply to airplane multiengine operations, specifically. Because
the task is narrowly tailored to a
different aircraft, the FAA requires
additional operating information
pertaining to powered-lift before
analyzing the applicability of the task
into the ATP Powered-Lift ACS.
Additionally, powered-lift operations
Standards for Normal, Utility, Acrobatic, and
Commuter Category Aircraft final rule, 81 FR 96572
(Dec. 30, 2016).
62 Under FAA’s rules of construction in 14 CFR
1.3, the term ‘‘shall’’ is used in the imperative sense
meaning it is a directive or command.
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are not yet envisioned for part 121 air
carriers. To mitigate the safety risk in
part 135 operation, the FAA relies
jointly on (1) practical testing with the
use of the ACS and incorporation of part
135 regulations (e.g., AOO I, Task E;
AOO II, Task A) and (2) the approved
part 135 training and checking
programs, contemplated by the
powered-lift NPRM and forthcoming
final rule (as previously discussed). As
industry expands into part 121
operations and the FAA garners the
requisite information on powered-lift air
carrier operations, the FAA may
consider adding an Air Carrier
Operations Task to the ATP PoweredLift ACS similar to that in the ATP
Airplane ACS.
The ARAC ACS WG commented that
the Steep Approach Task and other
Tasks specific to landing set forth in the
ATP Powered-Lift ACS exist in the
Private and Commercial Powered-Lift
ACS, and the FAA should not test the
same Tasks at the ATP and Type Rating
level because it creates redundant
testing. The FAA notes that there are
some tasks throughout certificate levels
that require duplicate testing. Due to the
array of differing characteristics and
capabilities of aircraft being pursued by
industry, as well as pending airman
certification pathways, the FAA
continues to require these crucial
approach and landing maneuvers in
each respective certificate level at this
time.
FSI made several discrete points
suggesting the FAA reorganize the ATP
Powered-Lift ACS to align with the ATP
Airplane ACS or for preferred
categorization under an AOO.63 Some of
these suggestions included removing
AOO VI (Landings and Approaches to
Landings), consolidating landing and
hover tasks within AOO III (Takeoffs
and Landings), and retitling requisite
AOOs to mirror those ATP Airplane
AOOs. The FAA notes this would
require a substantial overhaul to include
removing, consolidating, and
reorganizing both AOOs, tasks, and
elements. Changes of this nature would
also require further revisions to
regulatory text within § 61.157 to align
the AOOs. The unique characteristics of
airplanes, rotorcraft, and powered-lift,
which differ as independent categories
of aircraft, require varied AOOs and
tasks for airman certification purposes.
While the FAA recognizes a desire to
have the ACS as uniform as possible
across categories and classes of aircraft,
the FAA does not find it feasible from
an efficiency or safety perspective to
overhaul the Powered-Lift ACS as
proposed.
Joby remarked that some elements are
inconsistent between the ATP PoweredLift ACS and other ACS documents.
Joby questioned why the battery used
for propulsion element was only in the
ATP Powered-Lift ACS. The FAA notes
that the knowledge element ‘‘Battery(s)
used for propulsion-charging,
discharging, and condition, as
applicable’’ is appropriate for testing at
most levels of airman certification for
powered-lift and, therefore, added it to
the final Private, Commercial, and
Flight Instructor ACS.64 Adding this
element provides the level of detail
needed to adequately evaluate an
applicant’s knowledge of this unique
topic as this relates to the necessity of
electrical energy storage or devices that
generate energy for propulsion specific
to some powered-lift aircraft and
otherwise would not be adequately
examined prior to reaching the ATP
certificate level. The FAA did not add
this element to the Instrument or the
Flight Instructor—Instrument ACS as
those documents focus on aircraft
systems related to instrument flight, as
do the other Instrument ACS. In the
building block approach to pilot
certification, these items would be
covered in prior testing (e.g., at the
private and/or commercial level).
Additionally, Joby also questioned
why distractions, task prioritization,
loss of situational awareness, and
disorientation were excluded from
several tasks. The FAA did not add the
risk management element pertaining to
the identification, assessment, and
mitigation of distractions, task
prioritization, loss of situational
awareness, or disorientation to each risk
management section of the ATP
Powered-Lift ACS. The FAA
intentionally assigned that element
where appropriate throughout the ATP
Powered-Lift ACS. The FAA does not
use identical and redundant language in
each risk management section in an
effort to better highlight applicable
elements related to distraction in
context. This is done to tailor the
possible risks to the task rather than
facilitate redundancy. For example,
some risk management elements include
‘‘passenger distractions’’ or ‘‘division of
attention.’’
Furthermore, Joby also questioned
whether ‘‘coordinate with crew, as
63 The FAA notes that FSI also made several
suggestions to the commercial ACS with this same
rationale. This section generally responds to the
breadth of uniformity concerns.
64 This element is in AOO I, Task G. Operation
of Systems in the Private and Commercial PoweredLift ACS and under AOO II, Task E. Flight Controls
and Systems in the Flight Instructor ACS.
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applicable,’’ and ‘‘use SRM or CRM, as
appropriate’’ were synonymous, as Joby
noted inconsistency when one element
appeared in some skills but both
elements appeared in other skills. The
FAA notes the skill element referred to
in these tasks specify ‘‘coordinate with
crew, if applicable, and complete the
appropriate checklist(s) in a timely
manner’’ and ‘‘[u]se single-pilot
resource management (SRM) or crew
resource management (CRM), as
appropriate.’’ The FAA does not find
these two skill elements are intended to
be synonymous. The first skill element
described is specific to the
responsibility of checklist usage, while
the following skill is specific to SRM or
CRM principles, which includes the
effective use of all available resources.
Finally, Joby suggested that AOO I,
Preflight Preparation, Task E, The Code
of Federal Regulations, should apply to
all applicants for type ratings, not only
be tested during ATP certificate tests.
The FAA did not make this change, as
the type rating test focuses more on the
unique aspects of the specific aircraft
type to ensure a person is qualified to
act as PIC of that type of aircraft.
Additionally, the FAA seeks to reduce
redundancy of testing over basic
elements. This matches the expectations
set forth in the ATP and Type Rating
Airplane ACS.
ddrumheller on DSK120RN23PROD with RULES2
iii. FAA–S–ACS–2, Commercial Pilot
for Rotorcraft Category Helicopter
Rating ACS, November 2023
Members of the ARAC Helicopter
ACS WG and U.S. Helicopter Safety
Team collectively submitted
comprehensive comments to the
Commercial Pilot for Rotorcraft Category
Helicopter Rating ACS, some of which
were echoed by GAMA.65 The group
summarized their efforts to draft the
helicopter ACS to include
advancements in aircraft equipment and
avionics and expressed concern that the
drafts submitted to the FAA did not
resemble the drafts that accompanied
the NPRM. The FAA duly considered
the group’s comments and underscores
its appreciation to the ARAC ACS WG
for their work to continually improve
and update the ACS in collaboration
with the FAA. As explained in this
section, the FAA did not implement
some of the suggested changes.
65 The group, which includes the ARAC
Helicopter ACS WG, U.S. Helicopter Safety Team,
and GAMA, noted that their comments highlight
only the Commercial Pilot Rotorcraft Category,
Helicopter Class ACS, but that many of their
comments could apply to the Private Pilot
Rotorcraft Category, Helicopter Class ACS as well.
Because the comments specifically addressed the
Commercial ACS, the FAA responded to the
comments in the commercial context.
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However, the table contained in section
IV.D. of this preamble illustrates those
changes that the FAA felt appropriate to
make at this time.
One prominent comment by the group
detailed the four additional maneuvers
developed by the ARAC ACS WG for
their draft commercial helicopter test to
ensure the commercial test is more indepth than the private test: (1) advanced
autorotations, (2) flight solely by
reference to instruments, (3) recovery
from unusual attitudes, and (4) hover
out-of-ground effect. The group
acknowledged the FAA’s addition of
unusual attitude recoveries (AOO VII,
Task L) as proposed in the FAA’s draft
ACS. The FAA notes that the
Commercial Helicopter ACS adopted in
this final rule includes the group’s
suggested task of flight solely by
reference to instruments, as
subsequently discussed. This section
also contains discussion on the FAA’s
decision at this time to exclude the two
remaining tasks.
Foreword and Appendices. First, the
group noted that the foreword in the
ACS gives little explanation about the
ACS, which it considers significant
because the majority of the helicopter
community will be transitioning from
the PTS testing format to the ACS.
Additionally, the group noted that
certain appendices have been
eliminated, namely the References
(formerly appendix 9) and
Abbreviations and Acronyms (formerly
appendix 10). The FAA did not
eliminate this information but simply
relocated it. Interested parties can find
more information about the use of the
ACS within the ACS Companion Guide
for Pilots, as well as numerous resources
provided by the FAA on the FAA’s
Airman Certification website.66
Additionally, the Abbreviations and
Acronyms appendix was relocated to
section 6 of the ACS Companion Guide
for Pilots, and conforming revisions
were made within the ACS to ensure
consistency in abbreviation and
acronym usage. Further, rather than a
single page of references for each ACS,
the entire set of references moved to
section 5 of the ACS Companion Guide
for Pilots.
Area of Operation II (Preflight
Procedures). The group stated that the
skill element within Task D (Before
Takeoff Check) requiring an applicant to
maintain powerplant and main rotor
speed (Nr) within normal limits is
nonsensical because the aircraft is not
flying during this Task. The FAA notes
the Task requires the applicant to first
66 Airman Certification Standards | Federal
Aviation Administration (faa.gov).
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perform the ‘‘Complete the appropriate
checklist(s)’’ skill element, which
includes setting and maintaining the
power and main rotor speed within
normal limits per the manufacturer’s
POH or RFM, prior to the helicopter
becoming airborne. Therefore, this skill
element is feasible for pre-takeoff
activity, and the FAA kept the skill
element. Helicopters may maintain
power and rotor speed in different ways
while on the ground and prior to
takeoff. In some aircraft, the pilot
manages the powerplant and main rotor
speed operational limits through throttle
manipulation. Some manufacturers will
require the pilot to increase throttle to
the normal operational range and
manually maintain those parameters.
Some helicopter manufacturers’ ‘‘before
takeoff checklists’’ include the pilot
setting the throttle to the normal
operating position and then the aircraft
maintains the normal operating
limitations while the pilot monitors
those parameters in the event conditions
require intervention. As part of the
before takeoff sequence, pilot
responsibility includes maintaining the
powerplant and main rotor speeds
within the normal operating limits
regardless of the design features of the
helicopter. Further, the inadequate
management of powerplant and main
rotor normal operating limits prior to
takeoff could result in aircraft damage
(i.e., powerplant and main rotor
overspeed).
Area of Operation IV (Hovering
Maneuvers). The group suggested that
various hovering maneuvers should
exclude the requirement for an
applicant to complete the appropriate
checklist because there are hovering
maneuvers where checklists do not
exist. The group stated that, in turn, this
makes the skill superfluous and broad.
The FAA retained the skill element of
completing the appropriate checklist in
the adopted ACS since a practical test
determines an applicant possesses the
skill to perform all Tasks without
missing critical steps. The FAA
recognizes that, in certain situations, the
helicopter pilot may not have time to
review the checklist immediately due to
the complexity of the helicopter or the
maneuver, or a checklist may not
correspond to a particular maneuver in
real operations. For this reason, the ACS
uses the modifier ‘‘appropriate’’ within
the skill element.
Area of Operation V (Takeoffs,
Landings, and Go-Arounds). The group
noted that the FAA used the title
‘‘Maximum Performance Takeoff and
Climb’’ rather than ‘‘Advanced Takeoff
Profile and Climb,’’ as set forth in the
group’s draft. The group stated that
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maximum power is not required and the
Helicopter Flying Handbook allows for
different climb profiles, which seems
better embodied by the title set forth by
the group. The FAA notes that the skill
elements within this Task do not require
the applicant to use maximum power,
but the takeoff power necessary, or
power as specified by the evaluator to
maximize the takeoff performance and
safely complete the Task. Pilots must
take operational considerations into
account to minimize the risk of
exposure in the H/V diagram when
clearing obstacles. The FAA did not
implement the change to the term
‘‘advanced’’ as this may minimize the
risk that applies to similar Tasks and the
FAA kept the Task title as published in
the NPRM.
Area of Operation VI (Performance
Maneuvers). First, the group noted that
a study conducted by the U.S.
Helicopter Safety Team reported that
30% of helicopter training accidents
occur in practice autorotations.
Therefore, the group emphasized that
the FAA should adequately update and
address corresponding autorotation
training in the Helicopter ACS, whether
in the tasks themselves or in the
appendices. The group stated that
elements within the Straight-In
Autorotation in a Single Engine
Helicopter require refinement for safety
purposes. Specifically, the group noted
that the Helicopter Flight Manual
defines a straight-in autorotation as not
having any turns; however, the elements
under this task imply turns are
necessary to avoid undershooting or
overshooting. The group urged the FAA
to correct this inconsistency by revising
the title of the Task to ‘‘Basic
Autorotation’’ and eliminating certain
turning and accuracy skills.
The FAA agrees that AOO VI,
Performance Maneuvers, Task B,.
Straight-In Autorotations in a SingleEngine Helicopter, describes an
autorotation made from altitude with no
turns. The Helicopter Flying Handbook
includes several factors that affect the
rate of descent in autorotations,
including bank angle, density altitude,
gross weight, rotor RPM, trim condition,
and airspeed. It further details the
primary ways to control the rate of
descent including airspeed and rotor
RPM.67 The term ‘‘maneuver’’ may refer
to banking or turning and would also
include pitch attitude adjustments for
airspeed changes to avoid
undershooting or overshooting. The
FAA agrees that straight-in autorotation
entry location and altitude should set
task tolerances so the applicant can
arrive at the chosen termination point
without requiring turning techniques.
For clarity, the FAA changed the skill
element to remove the word
‘‘maneuver,’’ and replaced it with the
language proposed in the ARAC ACS
WG’s Commercial Helicopter draft that
stated, ‘‘Compensate for wind speed and
direction as necessary to avoid
undershooting or overshooting the
selected landing area.’’ The FAA
applied this change to the Private Pilot
and Flight Instructor Helicopter ACS for
consistency. Further, the FAA maintains
the term Straight-in Autorotation
describes the autorotation set forth by
the elements within the Task most
accurately and did not adopt the change
to the task name as suggested.
Next, the ARAC ACS WG stated that
the Autorotation with Turn Task should
test an applicant’s ability to make an
autorotation with a 90-to-180-degree
turn. The group asserted that, while the
Helicopter Flying Handbook and ACS as
proposed with the NPRM uses the term
‘‘Autorotation with Turn,’’ the
Handbook defines the most common
turns in an autorotation as 90 degrees
and 180 degrees. The group notes that
ACS proposed in the NPRM requires a
turn of 180°, not 170° or 160°, which
would be within the parameters of the
Handbook’s definition of most common
autorotation. The group stated that a
larger margin is necessary where the
Handbook provides a broader range of
common autorotations, especially to
account for crosswind or ATC
corrections and considerations.
The FAA disagrees and notes the
applicant may demonstrate an
autorotation with turns with either two
90-degree turns in the same direction or
one continuous turn of 180 degrees. The
Helicopter Flying Handbook generally
states the most common types of
autorotations as 90-degrees and 180degrees in the context of two turning
options but describes the technique
with a 180-degree turn.68 The FAA
expects the applicant to demonstrate the
ability to turn the helicopter and
complete the maneuver on a reciprocal
track from the entry direction. This
allows for wind corrections or other
considerations to align the helicopter
with the intended track to the landing
area. To provide clarity, the FAA
removed the note from the Autorotation
with Turns Task and revised the
corresponding language in appendix 3
of the ACS (as well as in the Private
67 FAA–H–8083–21B, Helicopter Flying
Handbook (2019), Chapter 11: Helicopter
Emergences and Hazards (p. 11–2).
68 FAA–H–8083–21B, Helicopter Flying
Handbook (2019), Chapter 11: Helicopter
Emergences and Hazards (p. 11–6).
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Pilot and Flight Instructor Helicopter
ACS, where this issue would also
apply). The ACS appendix 3 language
explains that the 180-degree turn refers
to a change in direction with respect to
ground track, and not an exact
reciprocal heading, which should
account for the group’s concerns
regarding variations in the exact amount
of turning on this task.
Next, the group expressed concern
that certain tasks pertaining to
autorotations are only tested for those
persons who bring a single-engine
helicopter to the practical test. The
group commented that, if an applicant
brings a multiengine helicopter to the
practical test, they should have trained
and tested autorotations in a
multiengine helicopter. The group
compared the requisite civilian training
with that of the United States Army,
explaining that military primary
training requires power recovery
autorotations in the twin engine UH–72.
The FAA notes that autorotations in
multiengine helicopters present
unnecessary risk. Civilian pilots do not
perform autorotations in multiengine
helicopters during practical tests due to
the powerplant redundancy and the
remote likelihood of a dual engine
failure in civilian operations. The FAA
applies similar logic in multiengine
airplane practical testing, where an
applicant is not required to simulate
failure of all engines. While the FAA
does not differentiate between single
and multiengine helicopter class,
because the autorotation tasks are an
integral piece of the practical test and
will not be performed in a multiengine
helicopter, an applicant who does bring
a multiengine helicopter for a practical
test would be required to provide a
single-engine helicopter to demonstrate
the autorotation Tasks, as detailed in
appendix 3 of the Helicopter ACS.
The ARAC ACS WG commented that
the FAA did not add the group’s
suggested Advanced Autorotation Task
to the Commercial Pilot Helicopter ACS.
The ARAC ACS WG noted that they
referenced Special Federal Aviation
Regulation (SFAR) No. 73,69 enhanced
training in autorotation procedures
flight training requirement to create
their proposed enhanced autorotations
Task. The group explained that the
Task, titled Advanced Autorotation,
would incorporate the ability to use a
variety of techniques to maneuver the
helicopter in an autorotation to a
specific landing area. The FAA notes
69 SFAR No. 73 was adopted in 1995 (60 FR
11254) to establish special training and experience
requirements for pilots operating the Robinson
model R–22 and R–44 helicopters in response to the
number of accidents involving these models.
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SFAR No. 73 requires specific pilot
training, in addition to the requirements
of part 61, to respond to the high
number of accidents involving Robinson
model R–22 and R–44 helicopters.
However, the FAA does not purport to
write testing standards for airman
certificates and ratings for a specific
make and model of aircraft.
Furthermore, elements from the
advanced autorotation concept are
inherently incorporated into AOO VIII.,
Emergency Operations, Task B.
Powerplant Failure at Altitude in a
Single-Engine Helicopter. This task
includes skill elements such as
maneuvering to avoid undershooting or
overshooting the selected landing area,
which encompasses autorotation
airspeed and rotor RPM combinations as
dictated in the RFM for the aircraft used
and can include varying bank angle.
Therefore, the FAA did not add the
Advanced Autorotation task at this time.
Area of Operation VIII (Emergency
Operations). As previously mentioned,
the group proposed to include
additional Tasks in the draft ACS
submitted to the FAA. Specifically, the
group stressed that inadvertent IMC
accidents are a major cause of helicopter
fatalities and developed two
corresponding Tasks to include in the
Commercial level ACS: (1) Flight Solely
by Reference to Instruments and (2)
Recovery from Unusual Flight Attitudes.
The Commercial ACS accompanying the
NPRM only included the Recovery from
Unusual Flight Attitudes Task, which
the group noted was nonsensical to
include, given the exclusion of the
Flight Solely by Reference to
Instruments Task. The group described
a safety concern where an evaluator may
ask the applicant to perform an unusual
attitude recovery without knowing if the
applicant could even fly straight and
level under the hood.
Upon review, the FAA agrees with the
group regarding the relationship
between the Flight Solely by Reference
to Instruments Task and the Recovery
from Unusual Flight Attitudes Task and
added the Flight Solely by Reference to
Instruments Task to the Commercial
Helicopter ACS (as well as the Flight
Instructor Helicopter ACS). The FAA
concurs that this Task allows evaluators
an opportunity to assess an applicant’s
ability to control the helicopter by
reference to instruments before the
demonstration of the recovery from
unusual flight attitudes Task. The Task
provides a safety benefit for those
applicants demonstrating the recovery
and results in a de minimis addition to
the practical test such that it would not
substantially expand the envelope of the
training and testing.
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Miscellaneous. Finally, the group
commented that the FAA should have
included a Hovering Out of Ground
Effect (OGE) Task, developed by the
group, for the Commercial Helicopter
ACS. The group supported this
contention by explaining that
commercial pilots generally need to
hover OGE in commercial operations,
are not taught or tested how to do it, and
end up teaching themselves the
requisite skills. The group also stated
that the importance of performance
planning, potential risks, and specific
techniques for this maneuver are lost.
The group stated that this maneuver
occurs in commercial operations, which
would indicate that an operator or air
carrier could include it in an approved
training program, where training
tailored for a specific operation may
occur. The FAA notes that AOO I,
Preflight Preparation, Task F,
Performance and Limitations, covers the
type of performance planning that
would apply to OGE hover. As a result,
the FAA would rely on this task, as well
as the part 121 and/or 135 approved
training programs, to cover this, and did
not include this task in the Commercial
Helicopter ACS.
iv. FAA–S–8081–18A, Commercial Pilot
PTS for Lighter-Than-Air Category,
November 2023
One commenter recommended two
revisions to the Commercial Pilot PTS
for LTA Balloon. Specifically, within
AOO VIII, Performance Maneuvers, the
commenter questioned why Task F,
High Altitude Flight (LBG),70 only
applies to gas balloons (as indicated by
the parenthetical LBG within the ACS)
since balloons with airborne heaters
(‘‘hot air balloons’’) can also achieve
high altitudes. The commenter further
supported the expansion of Task G,
Obstacle Avoidance (LBH), and Task H,
Tethering (LBH), from balloons with
airborne heaters to gas balloons since
those types of balloons also avoid
obstacles and tether.
The FAA notes that balloon pilot
certificates are issued with a limitation
for either airborne heater or gas.71
Traditionally, gas balloons operate at
altitudes above most obstacles, while
balloons with airborne heaters typically
operate closer to terrain. Gas balloons
70 LBG stands for Lighter-Than-Air, Balloon (Gas);
LBH stands for Lighter-Than-Air, Balloon (with
Airborne Heater).
71 See 14 CFR 61.115 and 61.133(b). For both the
private and commercial certificate level, the
limitation may be removed when the person obtains
the required aeronautical experience in the balloon
comprising the limitation and receives a logbook
endorsement from an authorized instructor attesting
to the accomplishment of such experience and
ability to satisfactorily operate that sort of balloon.
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tether as a part of the inflation process,
which is captured in AOO V, Task E
Inflation, unlike balloons with airborne
heaters, where they tether for the
purpose of multiple ascents and
descents. Therefore, due to the low
occurrence of obstacle avoidance and
tethering functions in gas balloons, the
FAA sees no reason to expand these
testing areas to gas balloons. Likewise,
while the FAA tests the high-altitude
task for gas balloons only, the FAA
notes that pilots may fly balloons with
airborne heaters at high altitudes. The
elements of high-altitude flight for
balloons with airborne heat is captured
in the AOO III in Preflight Preparation,
and AOO VIII, Task J Mountain Flying.
The FAA finds, given the predominant
operational footprints for gas balloons
and balloons with airborne heaters,
expanding these testing areas to all
balloon applicants is not necessary to
determine the proficiency to act as PIC.
v. FAA–S–ACS–25, Flight Instructor for
Airplane Category ACS, November 2023
One commenter stated that weather
knowledge and understanding is poor
among many pilots, including flight
instructors, and it is vital for safety for
pilots to adequately understand this
subject area. The commenter
specifically noted that the Flight
Instructor Airplane ACS requires the
evaluator to select only three subelements from K2 or three sub-elements
from K3 within AOO III, Preflight
Preparation, Task C, Weather
Information.72 The commenter
recommended an increase of elements
for K2 to include all sub-elements and
for K3 to include at least 5 subelements. The FAA notes it did not
change the requirements within this
Task because the sub-elements simply
set a minimum standard that the
evaluator must select ‘‘at least’’ three
sub-elements. Evaluators should ask
more than the minimum weather
elements if needed to determine that the
applicant possesses the required
knowledge pertaining to weather
information within the AOO. This
minimum requirement does not restrict
the evaluator from selecting additional
elements but rather provides flexibility
when an applicant demonstrates
satisfactory knowledge of that Task.
Additionally, evaluators may question
applicants on weather information
72 For reference, AI.III.C.K2 is acceptable weather
products and resources required for preflight
planning, current and forecast weather for
departure, en route, and arrival phases of flight;
AI.III.C.K3 is meteorology applicable to the
departure, en route, alternate, and destination
under VFR in VMC, including expected climate and
hazardous conditions.
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during various Tasks throughout the
ACS (e.g., National Airspace System
within Technical Subject Areas,
Preflight Assessment within Preflight
Procedures) to ensure that an applicant
possesses the requisite knowledge and
skill pertaining to weather information
outside of those sub-elements within the
singular Task C.
One commenter suggested removing
many of the risk management elements
in the Fundamentals of Instructing (FOI)
AOO of the Flight Instructor Airplane
ACS (AOO I), stating that Task F,
Elements of Effective Teaching that
Include Risk Management and Accident
Prevention, sufficiently covers all risk
management for this AOO.73
Additionally, the commenter suggested
revising the skill elements in the FOI
AOO to set forth a single skill element
for each of the six FOI Tasks. The FAA
notes the risk management elements
outside of Task F, which include tasks
associated with human behavior and
communication, the learning process,
course development, and student
assessment, remain unchanged from the
proposed ACS. These risk management
areas associated with the other Tasks are
necessary to evaluate the overall
effectiveness of an instructor.
Additionally, the FAA did not combine
any skill elements within the FOI AOO
in the adopted final draft of the ACS
due to the itemization of testing codes,
which the FAA discusses further in
section IV.C. of this preamble.
The ARAC ACS WG commented that
all tasks and elements should be
focused on teaching and application of
FOI. Specifically, the group stated that
some of the tasks have skill elements
that state ‘‘deliver instruction,’’ others
say ‘‘teach,’’ others have neither, and
the FAA should revise for consistency
throughout. The groups suggested
revising the stem of the skill elements
to state that the applicant demonstrates
the ability to either (1) deliver
instruction ‘‘by teaching how to:’’ or (2)
‘‘apply learning theories,
communication techniques, teaching
methods, and learning assessment
while:’’ and then list the skill elements
and revise as needed to complete the
statement. The FAA notes that a Flight
Instructor ACS generally uses skill leadins that include demonstration and
explanation as opposed to performance
alone. However, in certain cases, if skill
elements specifically mention teaching
73 The risk management element in Task F
requires the applicant to identify, assess, and
mitigate risk associated with hazards associated
with providing instruction, obstacles to maintaining
situational awareness during flight instruction, and
recognizing and managing hazards arising from
human behavior, including hazardous attitudes.
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or demonstration, the FAA chose a
shorter lead-in to avoid redundancy. For
example, one skill element AOO X, Task
G, Elevator Trim Stall Demonstration
uses the lead-in, ‘‘The applicant exhibits
the skill to: describe and demonstrate
conditions that lead to an elevator trim
stall for future avoidance.’’ If using the
common instructor skill lead-in, the
skill would read, ‘‘The applicant
demonstrates and simultaneously
explains how to: describe and
demonstrate conditions that lead to an
elevator trim stall for future avoidance.’’
As indicated above, the FAA believes
that this suggestion is already
incorporated in the ACS document and
no further modifications are needed.
The ARAC ACS WG suggested
limiting demonstration of flight
characteristics at various configurations
and airspeeds (AOO X, Task B) to ASEL
and ASES aircraft only because the task
elements were not created to mimic the
demonstration of effects of various
airspeeds and configurations during
one-engine inoperative performance
(AOO XII, Task C), which is only
applicable to AMEL and AMES. The
FAA agrees with the ARAC ACS WG’s
rationale, and the ACS adopted with
this final rule reflects AOO X, Task B,
as applicable to ASEL and ASES only.74
Specifically, the FAA adjusted a global
note, which sets forth the Tasks
required to be tested in AOO X, to
remove Task B as a requirement for
multiengine applicants. As an
outgrowth of this adjustment, the FAA
added skill sub-elements to the
corresponding multiengine skill element
referenced by the ARAC ACS WG (i.e.,
Task C of AOO XIII) to communicate the
expectations for demonstrating smooth
control inputs when transitioning
between various airspeeds and
configurations.75
The ARAC ACS WG requested
revisions to § 61.187 (specifically,
§ 61.187(b)(1) and (2)) to exactly align
this regulation with the AOOs in the
ACS. The FAA did not revise
§ 61.187(b) in this final rule. For
efficiency, the ACS combined the
performance maneuver and ground
reference AOOs in § 61.187 and the
multiengine operations appears in the
ACS generally (with a designator that
the Tasks within the AOO apply only to
multiengine practical tests), rather than
74 AMEL stands for Airplane Multiengine Land;
AMES stands for Airplane Multiengine Sea; ASEL
stands for Airplane Single-Engine Land; ASES
stands for Airplane Single-Engine Sea.
75 These sub-elements include demonstrating the
skill with landing gear extended, wing flaps
extended, landing gear and wing flaps extended,
and windmilling propeller on the inoperative
engine.
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separate ACS per class of airplane.
Because the ACS applies to both singleengine (§ 61.187(b)(1)) and multiengine
(§ 61.187(b)(2)), the ACS account for
both sets of AOOs in cohesion with the
regulations.
The ARAC ACS WG commented that
the use of the asterisk in the added
rating tables was not clear, and the FAA
should use ‘‘ALL’’ in its place. The FAA
disagrees, as use of the word ‘‘ALL’’
implies that the applicant would
complete all the Tasks in the area of
operation in the Instructor—Airplane
ACS, which would exceed the Tasks
required for the initial rating. The
asterisk requires the evaluator to apply
at least the required number of Tasks as
listed in the Flight Instructor Airplane
ACS for an added rating as those
required for an initial instructor—
airplane rating.76
The ARAC ACS WG stated that the
Note on AOO II, Technical Subject
Areas, Task A, Human Factors, should
require the evaluator to assess half the
sub-elements and that testing on all subelements is excessive. Appendix 1 of
each ACS indicates that, if a knowledge
element includes sub-elements, the
evaluator may choose the primary
element and select at least one subelement to satisfy the requirement,
unless otherwise noted in a specific
Task. Because the Human Factors Task
did not note that additional subelements are required, only the primary
element and at least one sub-element
should be selected by the evaluator.
Therefore, the task remains unchanged.
One commenter submitted many
comments on the format and layout of
the flight instructor ACS. The
commenter suggested that all tasks in
the Flight Instructor Airplane ACS
equivalent to those in the Private and
Commercial Pilot Airplane ACS should
have identical elements. In other words,
the commenter stated the only
difference should be the requirement for
instructional knowledge in the objective
to streamline the organization of the
ACS. Additionally, the commenter
suggested that the FAA first remove all
risk management elements in AOO I,
Fundamentals of Instructing, and
second include a single skill element
requiring the evaluator to evaluate all
knowledge elements. The ACS uses a
76 The asterisk designation is important in the
added ratings tables for ACS documents that do not
require all tasks to be completed. Each AOO and/
or task has a note identifying the requirements. The
asterisk directs the evaluator to review the note and
test accordingly. If ‘‘ALL’’ was listed on the added
ratings table, then all tasks within the AOOs would
be required. As a result, the practical test for an
added rating would be more restrictive and
burdensome than the initial practical test for that
certificate or rating.
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common FOI intended to confirm an
applicant’s ability to provide instruction
in general terms that applies to all
instruction, similar to the equivalence
between the Fundamentals of
Instructing Tasks in the respective
Instructor PTS. The purpose of the
Flight Instructor ACS is to determine if
an applicant is able to teach the material
in a manner conducive to an applicant’s
learning and, therefore, requires basic
and similar knowledge, risk
management, and skill element
validation.
Finally, one commenter posed
questions regarding the use and
evaluation of certain elements in the
Flight Instructor Airplane ACS. The
commenter’s questions generally
concerned how the FAA evaluates risk
and skill elements that are part of the
FOI and what AOOs and Tasks
evaluators test on the ground versus in
flight (and whether tangential tasks
could be combined). The FAA notes that
the commenter’s questions reference
how an evaluator designs a practical
test, creates a plan of action, and
administers the test. First, in general,
while knowledge of FOI theory applies
during the ground portion of the
practical test, risk and skill elements
associated with the FOI may also apply
during the flight portion of a practical
test for an instructor rating. Next, while
evaluators focus on AOOs I through V
during the ground portion of the
practical test (i.e., the FOI, technical
subject areas, a preflight lesson on a
maneuver to be performed in flight,
preflight planning, and elements of
preflight preparation), evaluators may
ask questions or observe applicant
behaviors that relate to these same
subjects during the flight portion of the
practical test. Evaluations conducted
during the flight portion of the practical
test consider whether an applicant
meets instructional criteria, provides
appropriate technical information, and
performs risk management. Prospective
applicants should read the ACS
Companion Guide for Pilots, ACS
Introductory paragraphs, the ACS
appendices, and may view FAA online
resources to better understand design
and administration of practical tests.
The ARAC ACS WG provided an
extensive list of suggested
administrative changes to the Flight
Instructor Airplane ACS that do not
change the objectives of the tasks and
AOOs. For example, the ARAC ACS WG
suggested adding a risk element
addressing wrong surface operations to
the Runway Incursion Avoidance Task
(AOO II, Task C). The focus of this Task
is to prevent runway incursions, which
should already encompass wrong
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surface operations that can lead to a
runway incursion. As another example,
the ARAC ACS WG recommended
adding a risk element pertaining to
NOTAMs within risk management of
the NAS (AOO II, Task G). However, the
FAA notes that this topic is already
covered in AOO II, Task I. The FAA
intends to continue working with the
ARAC ACS WG in the future to
continually improve the ACS and will
consider administrative suggestions for
later revisions of those elements.
Additionally, several of these editorial
comments by the ARAC ACS WG
suggested the FAA reorganize, rename,
and resituate tasks within the Flight
Instructor Airplane ACS, which would
require a substantial overhaul,
consolidation, and reorganization of
AOOs, tasks, and elements. The FAA
understands the desire for uniformity
amongst the series of ACS for
convenience but notes the ACS consist
of independent documents and
standards, applicable to different
categories and classes of aircraft over
multiple certificate levels. Because the
requested editorial and organizational
changes would not have any impact on
safety in the NAS, the FAA only made
the changes specified in Table 3, Record
of Editorial/Minor Changes, at this time.
vi. FAA–S–8081–9E, Flight Instructor—
Instrument PTS for Airplane Rating and
Helicopter Rating, November 2023
The Flight Instructor Instrument PTS
for Airplane Rating and Helicopter
Rating provides a table for the addition
of an instrument instructor rating to an
existing flight instructor certificate.
Specifically, the table lists each possible
flight instructor certificate and rating
held and then provides the required
AOOs and Tasks included on the
practical test for an additional rating.
The ARAC ACS WG commented that
the header ‘‘IA,’’ meaning Instructor
Instrument—Airplane Rating, was
nonsensical because the applicant
would already hold that certificate.
However, this PTS sets forth the
requirements for both a flight instructor
instrument—helicopter rating and a
flight instructor instrument—airplane
rating. Therefore, the table in this PTS
serves applicants who may hold an
instructor instrument airplane rating,
who would follow the ‘‘IA’’ header to
know what AOOs must be completed
for an instrument instructor-helicopter
rating; accordingly, the PTS retains the
‘‘IA’’ header.
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vii. FAA–S–8081–8C, Flight Instructor
Glider PTS for Glider Category,
November 2023
The Soaring Safety Foundation (SSF)
recommended adding a Runway
Incursion Avoidance task to the Flight
Instructor Glider PTS and stated that the
proliferation of motor gliders, both
touring and all other types, increases the
likelihood of a runway incursion.
However, the FAA notes that the
introduction to the PTS states that
evaluators and instructors must place
special emphasis on areas of aircraft
operation considered critical to flight
safety, which expressly includes a
reference to runway incursion
avoidance. Because this risk is
accounted for in the special emphasis
areas, the FAA finds the special
emphasis area sufficient. During the
transition to ACS, the FAA may relocate
this special emphasis area to a risk
element, if warranted.
Additionally, the SSF recommended
adding a night operations task to the
flight instructor PTS only, citing the
same reasons as the recommended
addition of the Runway Incursion
Avoidance task. While the FAA agrees
that motor gliders could operate at night
if properly equipped, given the small
community of night-flying glider pilots
and the absence of a task in the Private
and Commercial Glider ACS, there is
not an urgent safety-sensitive reason to
expand the footprint of the flight
instructor test without notice and
comment at this time. It would also be
difficult to require a flight instructor to
demonstrate instructional ability for this
task when there is no requirement
within the pilot PTS for gliders.
However, the addition of this task may
be considered across all glider
certificate levels when transitioning the
Glider PTS to ACS in the future if there
is a safety-based case to do so.
Finally, the SSF also requested the
addition of a high-altitude operations
task in the Flight Instructor Glider PTS.
Specifically, SSF stated the increased
number of high-altitude glider crosscountry flights that largely occur
between 12,500 feet and 18,000 feet
when flying in the mountains warrant a
specific task to ensure competency.
However, relevant testing on this subject
area is already housed under AOO X,
Soaring Techniques, Task C, Wave
Soaring, which predominately occurs at
high altitudes.
viii. FAA–S–ACS–8C, Instrument
Rating—Airplane ACS, November 2023
One commenter suggested that the
FAA modify the Instrument Rating—
Airplane ACS to include the option for
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evaluation of filing an IFR flight plan to
ensure realistic ATC handling.
Currently, the skill element found in
AOO I, Preflight Preparation, Task C,
Cross-Country Flight Planning, differs
from the suggestion in that it would
provide the option of creating a
navigation plan and actual filing of an
IFR flight plan. The FAA did not
implement this option in any of the
Instrument Rating ACS since the intent
of the task is to test the applicant orally
and not demonstrate the cross-country
in flight and the applicant is tested on
ATC handling AOO III, Task A.
Additionally, the training required for
an instrument rating set forth by § 61.65
requires instrument flight training on
cross-country flight procedures
performed under IFR when a flight plan
has been filed with an ATC facility.77
The applicant already demonstrated
their ability to fly a cross-country in the
certificate level they hold. This rating is
for the purposes of instrument flight
only. The FAA considers that simulated
filing of an IFR flight plan on a practical
test provides sufficient assurance an
applicant can file an IFR flight plan and
receive a clearance. As such, the FAA
did not make the change in the final
ACS.
Another commenter stated that the
phrasing used in AOO I, Preflight
Preparation, Task A, Pilot Qualifications
changed between the original
Instrument Rating—Airplane ACS
(FAA–S–ACS–8), published in 2016,
which used the element ‘‘when an
instrument rating is required’’ and the
Instrument Rating—Airplane draft
published in 2019 and maintained in
the NPRM draft (FAA–S–ACS–8B and
FAA–S–ACS–8C, respectively), which
use the phrase ‘‘privileges and
limitations.’’ The commenter stated that
because privileges and limitations only
exist for pilot certificates, not ratings,
the knowledge element should be
changed back to the 2016 phrasing. The
FAA did not make a change to the
adopted ACS. The terminology
‘‘privileges and limitations’’ aligns with
part 61. Specifically, § 61.2(a) defines
the validity of privileges of a certificate
and a rating. When a rating appears on
a pilot certificate, the rating itself
conveys certain privileges and
limitations. For example, a person who
has a commercial pilot certificate with
an airplane category rating is limited
from exercising commercial pilot
privileges in a rotorcraft category,
helicopter class until they obtain a
rotorcraft category, helicopter class
rating. The same concept applies to
77 14
CFR 61.65(d)(2)(ii).
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those privileges accompanying an
instrument rating (i.e., flight under IFR).
One commenter stated that AOO II,
Task A, Aircraft Systems Related to
Instrument Flight Rules (IFR)
Operations, traditionally focused only
on deicing systems and noted that the
FAA added knowledge, risk
management, and skill elements
pertaining to autopilots. The commenter
suggested eliminating duplication of
elements related to automation between
that Task and AOO II, Task B, Aircraft
Flight Instruments and Navigation
Equipment task. The FAA notes that
Task A is specific to aircraft systems
related to IFR operations. This area not
only includes de-icing systems, but also
automatic flight control systems (AFCS)
as set forth in the draft ACS. The FAA
intentionally added the elements for
automation systems given technological
advancement and modern aircraft
equipage. The purpose of Task B is to
test the applicant on the flight
instruments and navigation pertaining
to IFR operations. The flight
instruments correlate to automation;
however, the two tasks have two
different objectives. Based on these
reasons, the FAA is retaining these
elements in the final ACS.
The ARAC ACS WG recommended
that the FAA remove the requirement
for a circle-to-land in the IPC so pilots
may complete the IPC solely using an
Advanced Aviation Training Device
(AATD). The FAA disagrees with this
recommendation, as AATD’s lack the
fidelity requirements for both the visual
and motion (no motion system
requirement) systems to properly
represent the conduct of a circling and
landing approach. Pilots need to
demonstrate their ability in a realistic
environment so that they are prepared
to conduct the maneuver in the NAS.78
It is for this reason that credit is also not
provided for landing tasks. To receive
accurate training on these tasks, the
pilot will have to use an airplane or a
full flight simulator (Level B, C, or D).
ix. FAA–S–ACS–6C, Private Pilot for
Airplane Category ACS, November 2023
One commenter suggested the FAA
remove knowledge of certification
requirements from the Private Pilot
Airplane ACS, element PA.I.A.K1.
Specifically, AOO I, Preflight
Preparation, Task A, Pilot
Qualifications, requires an applicant to
demonstrate understanding of
certification requirements, recent flight
experience, and record keeping. The
suggested change would remove
‘‘certification requirements’’ from the
78 See
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element, as the commenter stated that
knowledge of the certification
requirements is irrelevant for an
applicant at the practical test stage and
would be more relevant to flight
instructors. The FAA disagrees with this
removal, as a private pilot applicant
should know specific FAA regulations
under title 14 Code of Federal
Regulations that not only pertain to
initial private pilot certification but also
pertain to maintaining certification to
continue operating privileges (e.g.,
removal of any certification limitations,
adding ratings). While flight instructors
provide the required dual ground and
flight training and verify the applicant
meets the minimum requirements for
that pilot certificate, this fact alone does
not relieve an applicant from knowing
the regulatory requirements for their
own continuing certification.
The same commenter suggested the
FAA change a skill element found in
AOO I, Preflight Preparation, Task D,
Cross-Country Flight Planning, to create
an aviation plan and file, or simulate
filing, a VFR flight plan as directed by
the evaluator (specifically, element
PA.I.D.S3). The commenter further
detailed that some applicants have
never filed a VFR flight plan airborne or
on the ground. This change would give
the evaluator the option to ask an
applicant to demonstrate opening and
closing a flight plan during the flight
portion of a practical test as opposed to
only simulating this requirement. The
FAA notes that two elements within
AOO I (PA.I.D.K4, elements of a VFR
flight plan and PA.I.D.K5, procedures
for filing, activating, and closing a VFR
flight plan), allow an evaluator to
determine the understanding and ability
of an applicant to create, file, open, and
close a VFR flight plan. The FAA did
not modify the ACS as suggested, as this
task corresponds with the oral portion
of the practical test that occurs prior to
flight, and the applicant would
demonstrate this task as a simulation.
One commenter suggested that the
Tasks in the AOO for Basic Instrument
Maneuvers (AOO VII) should be moved
to Emergency Procedures because the
focus of basic instrument maneuvers
should be to enable a non-instrument
rated pilot to successfully avoid and,
failing that, recover from inadvertent
IMC. The commenter stated that the
location of the tasks will more
appropriately emphasize the purpose of
the training. The FAA agrees with the
commenter that emergency procedures
may situationally necessitate basic
instrument maneuvers and, therefore,
would involve both AOOs. However,
the FAA did not make the resulting
change in the adopted Private Pilot
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Airplane ACS because tasks pertaining
to basic instrument maneuvers
appropriately prioritize within their
own AOO. Additionally, this AOO
corresponds to the regulatory AOO for
Basic Instrument Maneuvers as set forth
by § 61.107(b)(1)(ix) and (b)(2)(ix).
When creating a plan of action, the
evaluator can combine tasks into one
scenario to address the commenter’s
suggestion.
The ARAC ACS WG suggested the
addition of a note to clarify whether
applicants can use avionics-generated
information to provide a destination
estimate for the initial or revised
estimate during the Pilotage and Dead
Reckoning Task within AOO IV,
Navigation. The ACS and PTS create
requirements for certification, and the
FAA handbooks and guidance provide
accepted methods of compliance. In
accordance with a reference listed for
this Task, the Pilot’s Handbook of
Aeronautical Knowledge 79 defines
pilotage as navigation by reference to
landmarks or checkpoints. The guidance
explains that, due to safety concerns in
the event of electronic navigation
failure, applicants should have the
ability to use pilotage and dead
reckoning for navigation. While the
FAA accepts using a computergenerated initial estimate as part of
flight planning, this Task provides the
applicant an opportunity to demonstrate
basic understanding of the speed, time,
and distance relationship using realistic
estimates without the benefit of satellite
or ground-based electronic navigation
equipment. The FAA did not add a note
to the pilotage and dead reckoning task
for avionics-generated information to
provide a destination estimate since the
FAA’s handbook definition of pilotage
and dead reckoning does not involve the
use of GPS or electronic navigation.
The ARAC ACS WG suggested adding
Tasks from AOO IX, Emergency
Operations, Tasks E, F, and G (involving
engine failures/inoperative engines
specific to multiengine airplanes) to the
requirements for an added multiengine
sea rating based on the applicant
already holding a multiengine land
rating. In the absence of safety data
requiring additional emergency
operation testing for an airplane
multiengine sea added rating, the FAA
maintains that these Tasks have
sufficient commonality in required
maneuvering between AMEL and AMES
and, therefore, did not require the
emergency operation testing for an
added multiengine sea rating.
The ARAC ACS WG suggested
changing a skill element for the
79 FAA–H–8082–25.
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Emergency Descent Task (AOO IX, Task
A) to reference the Airplane Flying
Handbook (FAA–H–8083–3) and the
airplane flight manual (POH/AFM).
However, the Task lists the Airplane
Flying Handbook as a general reference
and the POH/AFM as a specific
reference within the element itself.
These references provide applicants
with the opportunity to develop
familiarity with that handbook
information regarding an emergency
descent. During a demonstration of an
emergency descent, the FAA expects
applicants to follow the manufacturer’s
guidance (i.e., the POH/AFM) as the
most tailored information to that
aircraft.
x. FAA–S–8081–32A, Private Pilot PTS
for Powered Parachute Category and
Weight-Shift-Control Aircraft Category,
November 2023
Members of the ARAC ACS WG noted
that the Private Pilot PTS for PoweredParachute and Weight-Shift Control
lacks elements related to risk
management. The FAA notes that the
PTS uses special emphasis areas that
apply globally to PTS Tasks to address
risk mitigation. In addition, the section
on unsatisfactory performance discusses
failure to use proper and effective visual
scanning techniques to clear the area
before and while performing maneuvers.
While the FAA made minor changes to
PTS documents published as part of the
NPRM, the FAA considered it
appropriate to develop risk management
elements within each Task when
converting the PTS to an ACS through
the collaborative process established
within the ARAC ACS working group,
especially where no safety concerns
were identified by the commenters to
justify an addition as part of this rule.
xi. FAA–S–8081–17A, Private Pilot PTS
for Lighter-Than-Air Category,
November 2023
One commenter recommended
inclusion of an additional ratings task
table for applicants seeking a balloon
rating. The FAA notes the PTS that
accompanied the NPRM had not been
converted into ACS and were largely
unchanged from their pre-NPRM
version. As a result, the FAA did not
create the additional ratings task table
during this rulemaking. The FAA
intends to consult with members of the
ARAC ACS WG prior to proposing an
additional rating task table for future
revisions.
xii. FAA–S–8081–10E, Aircraft
Dispatcher PTS, November 2023
The ARAC ACS WG provided
extensive comments regarding the
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Aircraft Dispatcher PTS and aircraft
dispatcher certification in general. The
FAA found many of these comments
and suggestions, such as raising
minimum enrollment requirements,
increasing training hours, and reducing
items unique to pilots, outside the scope
of this rulemaking. However, in this
section, the FAA responds to the
comments pertaining to the Aircraft
Dispatcher standards, currently in the
form of a PTS and planned for
conversion to an ACS in the future. See
section IV.D., Table 3 Editorial/Minor
changes of this preamble for editorial/
minor changes made to the Aircraft
Dispatcher PTS.
One comment suggested removing
certain elements from the Aircraft
Systems, Performance, and Limitations
Task in the Flight Planning/Dispatch
Release AOO. Specifically, the
commenter recommended removal of
elements corresponding to weight and
balance because the commenter
contended that these issues have been
removed from the knowledge test. The
FAA notes that the dispatcher
knowledge test does have weight and
balance questions, and the FAA will
continue to support questions for those
enumerated elements within the PTS
(eventually ACS). Additionally, an
applicant must demonstrate skill in the
areas of knowledge specified in
appendix A of part 65, which includes
weight and balance. As a result, the
FAA maintains the elements that
require the applicant to compute weight
and balance and determine limits,
which directly impacts aircraft
performance for all phases of flight.
The commenter further suggested
removing elements related to marker
beacons, Automatic Direction Finder
(ADF), and Doppler Radar in AOO I,
Flight Planning/Dispatch Release, Task
F, Navigation and Aircraft Navigation
Systems. The FAA did remove doppler
radar and marker beacons from the
NPRM version of this PTS. However, the
FAA does not agree with removal of
automatic direction finder (ADF).
Because low altitude airways in the
NAS rely on non-directional beacons,
aircraft dispatchers may reference these
routes, and some aircraft may track
these routes using an ADF or Radio
Magnetic Indicator (RMI). The FAA’s
current U.S. Terminal Procedures
Publication (TPP) contains NonDirectional Beacon (NDB) approaches,
which require an appropriate display.
3. Universally Applicable Comments
i. ARAC ACS WG Comments
The ARAC ACS WG submitted
extensive comments to the NPRM and
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various ACS and PTS. Discussion of a
number of these comments occurred
within sections IV.A. and IV.B. of this
preamble. Additionally, the FAA
adopted many of the ARAC ACS WG’s
suggestions in the ACS and PTS
accompanying this final rule, detailed in
Table 3 of Section IV.D. of this
preamble. The FAA offers the following
responses to the ARAC ACS WG
comments.
The ARAC ACS WG suggested several
formatting revisions, such as a change
from tables to lists, numbering of the
ACS appendix tables, and clarifying
section headers. The FAA maintained
the format of the ACS as proposed in the
NPRM and notes that clear titles appear
above each chart, followed by a brief
description of the chart’s purpose for
each ACS, as well as within the body of
the ACS themselves. In its continuing
collaboration with the ARAC ACS WG,
the FAA will consider
recommendations and implement any
changes that the FAA determines will
improve the readability and
understanding of the ACS documents.
The ARAC ACS WG questioned
whether a determination that an
applicant or certificate holder has met
certain English language requirements
applies only to the practical test or to an
IPC as well. The ARAC ACS WG
referred, specifically, to certain content
in the ACS that requires an evaluator to
determine whether an applicant meets
the FAA Aviation English Language
Standard (AELS). The ARAC ACS WG
seems to contend that the text should
clarify English requirements, as the ACS
states it only applies to evaluators
administering a practical test, which
does not include an IPC. The FAA
examined this language and determined
that the paragraph in question does
apply to a practical test, evidenced by
terminology and phrasing such as
‘‘applicant,’’ ‘‘before starting the
practical test,’’ and ‘‘discontinue the
practical test.’’ However, the FAA
neglected to include checking, as
explained in AC 60–28B, in the ACS
AELS section of appendix 1 and pointed
out by the ARAC ACS WG. As a result
of the review, the FAA updated
appendix 1 of each ACS to include a
practical test and regulatory checks (e.g.,
IPC or pilot-in-command proficiency
check). The evaluator conducting
testing, training, or any required
regulatory check should evaluate if the
applicant for an FAA certificate or
holder of an FAA certificate
demonstrates the FAA AELS.
Next, the ARAC ACS WG suggested
that sample airman knowledge test
questions need to have representative
questions reflecting the ACS coding on
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actual tests to accurately reflect what an
applicant missed on the practice exam.
The ARAC ACS WG stated that this, in
turn, will aid applicants, instructors,
and evaluators in discrete identification
and training on specific missed
elements. The FAA currently provides
codes for the sample knowledge test
questions related to an ACS. As PTS
convert to ACS, the FAA works to
ensure it updates the sample test bank
and will continue to do so as an
outgrowth of this rulemaking.
Additionally, many independent
sources, as well as the FAA’s contracted
vendor for knowledge testing, PSI
Services, LLC, have practice tests
available where users can receive
sample test reports and ACS codes.
However, because these practice tests
are not authored or administered by the
FAA, the FAA cannot commit to future
efforts to tie test reports to the ACS
codes in those instances.
Lastly, the ARAC ACS WG suggested
revisions to part 141 to align with the
revisions to part 61. Specifically, the
ARAC ACS WG stated that the NPRM is
inaccurate in its statement that the
AOOs for testing, whether under part 61
or part 141, will be governed by areas
of operation in the applicable ACS or
PTS. The ARAC ACS WG sought clarity
in both § 141.67(c) and appendix E.4.(c)
to part 141 to align the AOOs with part
61 and the ATP ACS.80
As discussed in the NPRM, the FAA
contemplated the proposal of
conforming amendments to part 141 to
reconcile the proposed changes in part
61. However, the FAA did not propose
any revisions to part 141. In other
words, applicants from a pilot school (or
provisional pilot school) either take the
practical test or an end-of-course test
given by a pilot school that holds
examining authority. The practical test
under part 61 would align with the
applicable ACS by direct reference in
part 61: §§ 61.14 and 61.43, as adopted.
The end-of-course test would align with
the applicable ACS through the crossreference in § 141.63(c), without need
for further amendment because
§ 141.67(c) already requires such end-ofcourse test to be equal in scope, depth,
and difficulty to the comparable
practical test prescribed by the
Administrator under part 61 (i.e., the
80 14 CFR 141.67(c) requires tests given by a part
141 school that holds examining authority to be at
least equal in scope, depth, and difficulty to the
tests prescribed under part 61. Appendix E to part
141 prescribes the minimum curriculum for an
airline transport pilot certification course for the
following ratings: airplane single engine, airplane
multiengine, rotorcraft helicopter, and powered-lift.
Section 4.(c) in the appendix requires an approved
course to include flight training on the AOOs listed
in that section.
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practical test that aligns with the
applicable ACS by regulation).
As stated in the NPRM, the FAA
acknowledges that the areas of operation
in part 141, appendix E, section 4.(c)
will not precisely align with the areas of
operation set forth in § 61.157(e) as
adopted in this final rule. The FAA
considered making conforming
amendments to part 141 appendices in
this rulemaking; however, the concern
for unintentional administrative
repercussions to part 141 pilot schools
and approved training curriculums that
would be outside the scope of this
rulemaking outweighed the aspiration
for consistency at this time.
ii. Other General Comments
Outside of the ARAC ACS WG
comments, many commenters’
statements were general in nature. This
section addresses general comments
regarding ACS and PTS across a broad
range of aircraft.
One commenter questioned how
incorporating the ACS and PTS by
reference would affect the referenced
material with each task (e.g., other
regulations, ACs, Handbooks, Flight
Manuals, etc.). The FAA notes that
secondary references included in a
document incorporated by reference are
not considered regulatory unless
another mechanism has made them so.81
For example, a secondary reference to
an Advisory Circular is not regulatory
because an Advisory Circular is
guidance by nature. Conversely, a
secondary reference to a specific 14 CFR
section would be regulatory because it
is adopted into the CFR. Therefore,
incorporation by reference does not
reach to the reference material listed
under each Task heading in all ACS and
PTS unless another mechanism makes
the references regulatory. In the event of
a conflict between secondary references
and the ACS and PTS, the ACS and PTS
would control, as the secondary
references, unless made regulatory
through other means, only constitute
guidance.82 Because these references
and other guidance in existence do not
81 The Office of the Federal Register contemplated
the inclusion of secondary references in material
that has been incorporated by reference and
declined to extend its regulatory purview to allow
for IBR of secondary material merely referenced in
the primary document. See Incorporation by
Reference, 76 FR 66267, 66275 (Nov. 7, 2014).
82 The commenter specifically noted that LighterThan-Air Balloon Manual PTS, which lists the
balloon flight manual as reference and notes that no
regulation exists requiring a balloon to have a flight
manual. The FAA lists a flight manual in the
Lighter-Than-Air Balloon as a reference only to
contemplate a balloon that does have a flight
manual as a resource for applicants and DPEs for
that specific task. If a flight manual does not exist,
then that reference would simply not apply.
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require an applicant seeking a certificate
or rating to complete specific tasks and
maneuvers to a minimum given
standard to obtain the applicable
certificate or rating as the ACS and PTS
do, the FAA did not incorporate those
documents by reference in this
rulemaking.
Additionally, the commenter stated
that rather than using incorporation by
reference for the PTS and ACS, the FAA
should move to a testing standard model
like that of the Financial Accounting
Standards Board, where an independent
entity of experts provides generally
accepted accounting standards. The
commenter conceded that these
standards are authoritative and without
IBR as law with the Securities and
Exchange Commission (SEC). The FAA
does not purport to be an expert in
regulation by other Federal agencies but
notes that it considers these standards to
satisfy the criteria in section 108 of the
Sarbanes-Oxley Act of 2002 as generally
accepted for purposes of federal
securities laws. The FAA does not find
that this model translates to airman
certification as the commenter suggests.
The FAA drafted and revised ACS and
PTS in collaboration with industry
affiliates. Rulemaking further enhances
and facilitates a broad range of input
and provides an equal opportunity for
any interested party to provide
comments for consideration. However,
the FAA possesses the statutory
authority under 49 U.S.C. 44702 to issue
airman certificates when the
Administrator finds an individual
qualified for and able to perform the
duties related to the position authorized
by the certificate. The FAA does not
find it appropriate to allow outside
parties to maintain a performance-based
approach to certification standards
whereby an outside entity may create an
independent framework to certification.
Further, consideration of an overhaul to
the certification system of this nature
falls outside the scope of this
rulemaking.
One commenter provided extensive
feedback on the broad concept of risk
management elements within the ACS.
Specifically, the commenter stated that
risk management elements should only
be tailored to those subject areas that
have historically been common causes
of accidents, incidents, and/or
violations to ensure an objective
practical test. The commenter stated
that the addition of risk management
elements, as well as the open-ended
phrasing and lack of guidance material,
creates a subjective, overwhelming, and
unreasonable testing standard that does
not enhance aviation safety and, rather,
makes learning and evaluation more
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difficult. The commenter provided
several examples to support the position
that the risk management elements may
seem to pose a significant risk but, in
actuality, do not pose such a risk; the
commenter offered the element of
‘‘unexpected runway changes by ATC’’
to support this contention. Specifically,
the commenter stated that this element
is required in the Private Pilot ACS, but
that is not a threat until a pilot is
operating an aircraft at an ATP
certificate level.
The FAA recognizes that each of the
ACS contains many risk management
elements. However, the FAA does not
agree that regulatory testing should only
include risk management elements that
have objectively resulted in accidents,
incidents, and/or violations. A risk, by
definition, includes the composite of the
predicted severity and likelihood of the
potential effect of a hazard; therefore, an
action cannot require a fixed standard or
minimum of a certain level of accidents
or fatalities as the only benchmark to be
considered as ‘‘risky.’’ If the FAA only
included those risk factors identified
through accident or incident data, it
could unintentionally remove a risk
management element that succeeds in
keeping the accident and incident rate
low in that particular area, thereby
creating greater risk (i.e., training and
testing on a certain risk management
element could explain a lack of
accidents/incidents attributed to that
risk management element). Conversely,
many accident/incident reports may
attribute a cause to one area when
multiple causes affect an outcome. As
the regulator of the NAS, the FAA seeks
to ensure pilots train and test to the
highest standard of safety and finds that
the risk management elements equip
pilots with the knowledge and strategies
to (1) reduce hazardous situations in the
NAS and (2) mitigate situations when
they do arise.
While some risk management
elements may seem duplicative or
redundant, the vast array of unique
piloting scenarios and challenges may
require a pilot to consider the same
hazards at multiple instances. The FAA
agrees that the number of risk
management elements in the ACS
exceeds the number of Special
Emphasis items in the PTS; however,
the FAA intended this development.
The PTS has long required the
evaluation of knowledge and risk
management elements in both the
ground and flight portions of the
practical test. The ACS acts as a better
tool because it clearly defines these
elements and organizes them in the
context of phases of flight rather than
broadly scoped risk identification. As
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the commenter pointed out, the risk
management element of ‘‘collision
hazard’’ is often parroted throughout the
ACS. However, with mastery of the
knowledge and skill of, for example,
recovery from unusual flight attitudes,
emergency descent, or night operations,
the ACS ascertains that a pilot should be
proficient at identifying any resulting
collision hazards.
Additionally, the FAA authored the
Risk Management Handbook 83 as
guidance to help recognize and manage
risk. Specifically, applicants and
instructors may use the handbook as a
tool to identify potential flight hazards,
assess the hazard, and mitigate
associated risks. ACS tasks reference
this Risk Management Handbook, and it
provides context, expansion, and case
studies on several risk management
elements. For example, many of the
ACS include risk management elements
specific to fuel planning (e.g., Private
Pilot for Airplane Category ACS AOO I:
Preflight Preparation, Task D: CrossCountry Planning, risk management
element 6: the applicant can identify,
assess, and mitigate risk associated with
fuel planning). The Risk Management
Handbook sets forth a hypothetical
scenario in which a reduced fuel load
due to additional weight requires a risk
assessment of fuel stop planning,
alternate landing destinations, fuel
efficiency due to weather and/or
altitude, etc. While the FAA agrees with
the commenter that the handbook does
not have a specific scenario for every
risk management element, the handbook
provides a foundation of analytical tools
a pilot could apply to the complexities
of risk mitigation. During a practical
test, the element of subjectivity may
decrease insofar as the applicant may
also test on their awareness, mitigation,
and consideration of elements in the
context of a separate task or maneuver
in the operating environment.
Finally, the FAA notes that, in
collaboration with the ARAC ACS WG,
it revised the risk management elements
from identification of negative action
(e.g., failure to do something) to simply
identification of the area within which
an applicant could analyze risk. The
actual risk involves hazards associated
with the action, rather than failure to do
something specific, as a pilot’s failure to
do something may not be the only time
risk presents itself in a scenario (e.g.,
collision hazards, a system
malfunction). The FAA expects
applicants to demonstrate knowledge of
hazards and risks associated with a Task
83 https://www.faa.gov/regulationspolicies/
handbooksmanuals/risk-management-handbookfaa-h-8083-2a.
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and to demonstrate the aeronautical
decision-making ability to mitigate risks
that develop during the practical test,
including those risks inside and outside
of a pilot’s control (or failure to
maintain control).
GAMA, members of the ARAC ACS
WG, and several individual commenters
urged the FAA to continue working
with the ARAC ACS WG to continue
fostering a collaborative environment
with the airmen training and testing
regime. GAMA specifically encouraged
the FAA to task the ARAC ACS WG
with the continuation of its work to
support the agency’s experts in
managing and modernizing the airman
certification framework. Additionally,
these groups expressed concern
regarding communication between the
ARAC ACS WG and the FAA due to ex
parte limitations during a rulemaking.
Further, GAMA would like the FAA to
provide a clear schedule for
development to assist the industry.
First, the FAA notes it does not intend
to disengage from the ARAC ACS WG
and plans to continue working together
on further ACS publications and safetyrelated matters. Specifically, the FAA
expects the ARAC ACS WG and the
FAA to collaborate in the conversion of
the remaining PTS to ACS, refinement
of the active ACS, and incorporation of
future developments in aviation
innovation within the airmen
certification framework. The ARAC ACS
WG development process does not need
to change simply because the FAA must
make ACS documents regulatory
through the IBR process once they are
submitted to the FAA by ARAC.
Because the ACS and PTS attain
regulatory status upon the effective date
of this final rule, any revisions made to
the documents will require rulemaking.
While this benefits the regulated
community in that it will clearly inform
and define the revisions in a given ACS
or PTS that the regulated community
must adhere to, it also means that the
FAA and the regulated community,
including the ARAC ACS WG, must
heed ex parte considerations 84 upon the
commencement of the rulemaking. The
FAA notes that this does not mean all
communications would halt with the
ARAC ACS WG and/or other interested
industry parties. Rather, the FAA
simply cannot discuss or negotiate the
substance of that particular rule with an
outside party without providing the
same opportunities to all members of
84 See 49 CFR 5.5. See also Guidance on
Communication with Parties outside of the Federal
Executive Branch (Ex Parte Communications), April
19, 2022; https://www.transportation.gov/
regulations/memorandum-secretarial-officers-andheads-operating-administrations.
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the regulated community. For example,
if the ARAC ACS WG submitted a
recommendation with the Commercial
Pilot Airplane ACS through ARAC and
the FAA concurred and commenced a
rulemaking, the FAA would follow the
Department of Transportation (DOT)
requirements and guidance on ex parte
contacts during informal rulemaking.85
However, this limitation would not
necessarily keep the FAA from
continuing to collaborate with the
ARAC ACS WG on matters unrelated to
the rulemaking, for example, the Private
Helicopter ACS. Additionally, the FAA
could meet with interested parties to
receive information and may ask
clarifying questions, as long as such
meetings are appropriately
memorialized and promptly docketed.
Finally, the FAA cannot commit at this
time to a clear schedule of the PTS to
ACS transition or provide a concrete
revision cycle but will collaborate on
timelines with the ARAC ACS WG
based on revision priority and
resources.
Finally, one commenter suggested
some general changes to the weather
task elements throughout all of the ACS.
The commenter first recommended
removing the weather depiction chart as
obsolete, which the FAA agrees with
and has made the change in the
appropriate ACS (see section IV.D.,
Table 3, of this preamble for weatherrelated element changes, including
other weather charts as referred to by
the commenter). Additionally, the
commenter generally disagreed with
itemizing the weather-related products
throughout the ACS and suggested that,
if itemization was necessary, the FAA
reorganize the element as observation,
analyses, forecasts, and in-flight weather
advisories. While the FAA has
maintained the general itemization of
those weather elements to provide
specific feedback for applicants on
knowledge tests and to allow applicants,
instructors, and evaluators to focus on
specific incorrect knowledge elements
related to weather products and
resources, the FAA updated ACS to
maintain currency with aviation
products.
C. ACS Testing Codes
As previously discussed, the FAA is
in the process of converting the PTS to
ACS. Since this endeavor began in 2011,
a number of PTS have, in fact, been
converted into ACS and are utilized
today as the testing standard. However,
85 The FAA notes that, in accordance with the
APA, the regulated community would have an
opportunity to comment within that rulemaking
docket, similar to this IBR process.
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as part of this rulemaking, the FAA
proposed revisions to existing ACS in
addition to incorporation by reference.
As a result, some ACS element codes
were revised. The ACS codes for these
elements serve as the link between the
airman knowledge test and the practical
test. Specifically, the FAA assigns an
ACS code to every knowledge test
question. When a person answers a
question incorrectly on an airman
knowledge test, the ACS code associated
with that test question appears on the
applicant’s knowledge test report so that
an evaluator may include the ACS
element on the practical test.
Additionally, pursuant to § 61.39(a)(6),
an applicant must obtain an
endorsement from an authorized
instructor certifying that the applicant
demonstrated satisfactory knowledge of
the subject areas shown as deficient on
the airman knowledge test. Therefore,
the accuracy of these codes ensures that
an applicant has the required
knowledge before receiving a certificate.
Because the ACS elements link to an
ACS code, as existing ACS are modified,
ACS codes may undergo revision.
Specifically, ACS codes will be added
when ACS elements are added to tasks
under areas of operation. Further, the
addition of ACS elements could create
a shift in ACS codes for subsequent ACS
elements. Conversely, ACS element
codes may archive when the FAA
removes ACS elements from tasks under
areas of operation. Given that airman
knowledge report and associated test
codes remain valid for 24 months or 60
months,86 shifting ACS element codes
could create problems in the accurate
identification of ACS elements trained
and endorsed under § 61.39(a)(6) and
tested by the evaluator.87 The ARAC
ACS WG commented on this potential
problem with revised ACS, stating that
the FAA needs a way to convey what
subjects correspond to the ACS element
code on the Airman Knowledge Test
Report to ensure the correct retraining
takes place should ACS code shuffling
occur.
The FAA notes that it proposed four
revised ACS with the NPRM that
contained reordered elements: Private
Pilot for Airplane Category ACS,
Commercial Pilot for Airplane Category
86 See
§ 61.39(a) prerequisites for practical tests.
FAA notes that some commenters
suggested reorganization of tasks and elements for
alignment purposes across certain ACS. For
example, Flight Safety International commented
that tasks in the Preflight Preparation Area of
Operation should be reorganized to align the ATP
and Type Rating Airplane, Helicopter, and
Powered-Lift ACS and PTS. The FAA declined to
revise tasks solely for the purpose of alignment
where this would result in major changes to the
testing codes.
87 The
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ACS, Instrument Rating—Airplane ACS,
and ATP and Type Rating for Airplane
Category ACS. As noted by the ARAC
ACS WG, these revisions resulted in
code shuffling,88 which the FAA
corrected in the versions of these ACS
incorporated by reference. Additionally,
the ARAC ACS WG suggested additional
detail within certain elements of ACS.
Breaking out elements could create a
disruption in the middle of codes in the
proposed ACS revisions, thereby
creating a waterfall effect of ACS coding
changes. Therefore, the final ACS
revisions now list several new subelements under the overarching
element, a framework that will not
substantially affect ACS codes and that
the FAA could apply for future ACS
revisions. For example, the Instrument
Rating—Airplane ACS dated June 2018,
FAA–S–ACS–8B, sets forth the
knowledge element of ‘‘Route planning,
including consideration of the available
navigational facilities, special use
airspace, preferred routes, and alternate
airports.’’ The FAA recognizes that
many substantive concepts reside
within this overarching element, such
that a discrete deficiency should receive
a narrower scope (i.e., an applicant
could be deficient in demonstrating
knowledge of route planning because
the applicant missed a question in chart
supplements but subsequently receive
an endorsement from an instructor by
demonstrating knowledge of special use
airspace, thereby failing to cure the
deficiency). Therefore, the FAA further
detailed the element into subelements.89 These sub-elements will
also provide applicants, evaluators, and
authorized instructors with more
discrete identification of subject
deficiency.
In the future, if the FAA adds discrete
elements to ACS tasks, the FAA has
identified a framework of including
additions at the end of the listing so as
to not create a waterfall effect of code
shifting. Additionally, where the FAA
removed an element, the FAA simply
replaced the text with the term
‘‘Archived.’’ A record of archived ACS
testing codes appears in Section 8 of the
ACS Companion Guide for Pilots, as
well as a record of changes in the front
matter of the particular ACS. The FAA
plans to update and utilize Section 8 of
the Companion Guide to communicate
archived codes in future revisions of
ACS that may occur.
Finally, an applicant must test in
accordance with the regulations that
exist at the time of the practical test,
meaning that the evaluator must base
22509
the practical test on the version of the
ACS incorporated by reference at the
time of that test. Evaluators will test
applicants on the elements that the
applicant was shown to be deficient on
the knowledge test; however, if the
codes correspond to any archived
elements that no longer apply to the
ACS with which the practical test must
align, evaluators would not include
those elements on the practical test.90
Therefore, the FAA modified appendix
1 of the ACS series with an applicability
statement in the minimum elements
tested for each applicable task.
D. Record of Changes
The FAA received a number of
editorial or minor changes to specific
ACS, PTS, and the ACS Companion
Guide for Pilots. Because the FAA
concurs and adopts these changes as
submitted, the FAA does not find it
necessary to respond to each individual
comment with substantial rationale.
Additionally, during the pendency of
the rulemaking, the FAA identified
certain modifications necessary to
improve the quality of the documents.
The FAA presents the following record
of changes as implemented in the ACS
and PTS incorporated by reference in
this final rule and the companion guide.
TABLE 3—RECORD OF EDITORIAL/MINOR CHANGES
Document
Changes
FAA–G–ACS–2, Airman Certification Standards
Companion Guide for Pilots.
1. Modified Applicant’s Checklist to allow for ‘‘printed or electronic’’ Chart Supplement or AIM.
2. Replaced weather AC 00–6, AC 00–45, and AC 00–54 with the Aviation Weather Handbook
(FAA–H–8083–28) in Section 5: References.
3. Revised acronym ‘‘KOL’’ to ‘‘KOEL‘‘.
4. Added AC 60–22, Aeronautical Decision Making to Section 5: References.
5. Removed FAA–H–8083–33 from Section 5: References.
1. Added an introductory note in the Foreword referencing and explaining the ACS Companion
Guide for Pilots.
2. Added Pilots Handbook of Aeronautical Knowledge (FAA–H–8083–25) and the Risk Management Handbook (FAA–H–8083–2) as a reference in various Tasks.
3. Replaced weather AC 00–6, AC 00–45, and AC 00–54 with the Aviation Weather Handbook
(FAA–H–8083–28).
4. Revised weather task sub-element texts to current weather products.
5. Added legend with added ratings table acronym definitions in appendix 1, Practical Test
Roles, Responsibilities, and Outcomes, where applicable.
6. Revised acronym ‘‘KOL’’ to ‘‘KOEL’’, as applicable.
7. Included information related to proficiency checks and English language proficiency in the
appendix 1, Practical Test Roles, Responsibilities, and Outcomes, Evaluator Responsibilities
section.
8. Edited Use of Flight Simulation Training Devices (FSTD) paragraph in appendix 3, Aircraft,
Equipment, and Operational Requirements & Limitations.
1. Standardized use of ASEL, ASES, AMEL, and AMES acronyms.
2. Added Major Enhancements Section for existing Airplane ACS providing a key of added
and archived elements.
All Airman Certification Standards ......................
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All Airplane Airman Certification Standards .......
88 For example, the ARAC ACS WG provided that
an AKTR with code ‘‘CA.I.C.K1.a’’ did not
correspond to anything because it was removed
from the ACS version that was proposed to be
incorporated by reference with this rulemaking (i.e.,
FAA–S–ACS–7B). Additionally, because of the
shuffling, upon finalization of this final rule and the
revised ACS, a person would be unclear whether
the AKTR code ‘‘PA.VI.B.S6’’ on their AKTR means
‘‘uses proper communication procedures when
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utilizing radar services,’’ as stated in FAA–S–ACS–
6B, or ‘‘maintain the selected altitude, ± 200 feet
and heading, ± 15°,’’ as stated in FAA–S–ACS–6C.
89 The sub-elements listed as: K1a through K1h
include: available navigational facilities, special use
airspace, preferred routes, primary and alternate
airports, enroute charts, chart supplements,
NOTAMs, and terminal procedures publications
(TPP). The sub-elements were also added in the
Instrument-Helicopter ACS, Instrument-Powered-
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Lift ACS, and Flight Instructor-Instrument Powered
Lift ACS.
90 The FAA notes, however, that the requirement
for the applicant to demonstrate satisfactory
knowledge of the deficient elements pursuant to
§ 61.39(a)(6) remains in effect. In the case of an
archived code, the applicant, and the authorized
instructor in providing the endorsement, would use
the ACS Companion Guide for Pilots to determine
the specific subject area corresponding to that code.
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TABLE 3—RECORD OF EDITORIAL/MINOR CHANGES—Continued
Document
Changes
FAA–S–ACS–11A, Airline Transport Pilot and
Type Rating for Airplane Category Airman
Certification Standards.
FAA–S–ACS–25, Flight Instructor for Airplane
Category Airman Certification Standards.
FAA–S–ACS–7B, Commercial Pilot for Airplane
Category Airman Certification Standards.
FAA–S–ACS–6C, Private Pilot for Airplane Category Airman Certification Standards.
FAA–S–ACS–8C, Instrument Rating—Airplane
Airman Certification Standards.
All Powered-Lift Airman Certification Standards
ddrumheller on DSK120RN23PROD with RULES2
FAA–S–ACS–27, Flight Instructor for PoweredLift Category Airman Certification Standards.
FAA–S–ACS–2, Commercial Pilot for PoweredLift Category Airman Certification Standards.
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1. Corrected Table of Contents to include the Credit for Pilot Time in an ATD section.
2. Added AC 60–22, Aeronautical Decision Making, as a reference to AOO I, Preflight Preparation, Task F, Human Factors.
3. Added statement pertaining to certain training and checking programs in appendix 1, Practical Test Roles, Responsibilities, and Outcomes, Satisfactory Performance.
4. Added statement to appendix 3, Aircraft, Equipment, and Operational Requirements & Limitations, V. Stall Prevention, ‘‘Other warnings, cautions, or alerts that do not meet the definition of a stall warning, such as a low airspeed warning, cannot be used as an indication of
an impending stall for completion of these stall Tasks.’’
1. Corrected out-of-sequence knowledge sub-element of K6 in AOO I, Fundamentals of Instructing, Task D, Student Evaluation, Assessment, and Testing.
2. Removed the AOO II, Technical Subject Areas, Task H, Navigation Systems and Radar
Services task skill element requiring an applicant to maintain the appropriate altitude.
3. Added a note specifying the minimum knowledge elements required in AOO II, Technical
Subject Areas, Task P, One Engine Inoperative Performance.
4. Relocated information regarding previously developed lesson plans from the objective for
AOO IV, Preflight Lesson on a Maneuver to be Performed in Flight, Task A, Maneuver Lesson, into a note.
5. Replaced phrase within AI.VII.E.K2 ‘‘approach and landing performance’’ with ‘‘takeoff and
climb performance’’.
6. Revised phrase within AI.X.D.R5 from ‘‘elevator stall’’ to ‘‘elevator trim stall’’.
7. Formatting revisions within appendix 1, Practical Test Roles, Responsibilities, and Outcomes, Evaluator Responsibilities.
1. Added 14 CFR 119.1(e) as a reference to the AOO I, Preflight Preparation, Task A, Pilot
Qualifications.
2. Replaced phrase within CA.IV.E.K1 ‘‘on approach and landing performance’’ with ‘‘on takeoff and climb performance’’.
3. Added CA.VI.B.S5 element.
4. Revised phrase within CA.VII.C.R5 from ‘‘elevator stall’’ with ‘‘elevator trim stall’’.
5. Removed the complex airplane requirement statement from appendix 3, Aircraft, Equipment,
and Operational Requirements & Limitations, Equipment Requirements & Limitations section.
1. Replaced phrase within PA.IV.E.K1 ‘‘on approach and landing performance’’ with ‘‘on takeoff and climb performance’’.
2. Revised phrase within PA.VII.C.R5 from ‘‘elevator stall’’ with ‘‘elevator trim stall’’.
3. Revised AOO VIII, Basic Instrument Maneuvers, Task E, Recovery from Unusual Flight Attitudes,91 PA.VIII.E.R7 element text from ‘‘High G situations’’ to ‘‘Operating envelope considerations’’.
4. Removed the complex airplane requirement statement from appendix 3, Aircraft, Equipment,
and Operational Requirements & Limitations, Equipment Requirements & Limitations section.
1. Added note to AOO I, Preflight Preparation, Task C, Cross-Country Flight Planning, regarding use of a computer-generated flight plan.
2. Removed instructor designation 92 within appendix 1, Practical Test Roles, Responsibilities,
and Outcomes, Instrument Proficiency Check.
1. Replaced ‘‘VTOL’’ and ‘‘cruise’’ with ‘‘thrust-borne flight,’’ ‘‘semi-wing borne flight,’’ and
‘‘wing-borne flight,’’ as applicable.
2. Replaced the term ‘‘conversion/transition’’ with ‘‘conversion,’’ as applicable.
3. Replaced ‘‘conversion angle’’ with ‘‘thrust vector angle,’’ as applicable.
4. Removed FAA–H–8083–33 as a reference.
1. Removed AOO II, Technical Subject Areas, Task H, Navigation Systems and Radar Services element, IL.II.H.S6, requiring an applicant to maintain the appropriate altitude.
2. Relocated previously developed lesson plan information for AOO IV, Preflight Lesson on a
Maneuver to be Performed in Flight from ‘‘objective’’ to ‘‘note’’.
3. Specified checklists to be completed in element IL.VIII.G.S1 of AOO VIII, Takeoffs, Landings, and Go-Arounds, Task G, Running/Roll-On Landing (i.e., approach and landing checklists).
4. Added note to AOO XII, Slow Flight and Stalls, clarifying minimum Task selection.
5. Added note to AOO XIV, Emergency Operations, and AOO XV, Special Operations, clarifying minimum Task selection.
6. Formatting revisions within appendix 1. Practical Test Roles, Responsibilities, and Outcomes.
1. Added 14 CFR 119.1(e) as a reference to AOO I, Preflight Preparation, Task A, Pilot Qualifications.
2. Specified checklists to be completed in CP.V.G.S1 of AOO V, Takeoffs, Landings, and GoArounds, Task G, Running/Roll-On Landing (i.e., the approach and landing checklists).
3. Revised ‘‘Addition of a Powered-Lift Rating to an Existing Commercial Pilot Certificate’’ table
to specify that selection requirements for Tasks are set forth in the body of the ACS (defined
by an asterisk) rather than a requirement to test all tasks under that AOO.
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Federal Register / Vol. 89, No. 63 / Monday, April 1, 2024 / Rules and Regulations
22511
TABLE 3—RECORD OF EDITORIAL/MINOR CHANGES—Continued
Document
Changes
FAA–S–ACS–13, Private Pilot for Powered-Lift
Category Airman Certification Standards.
FAA–S–ACS–28, Flight Instructor—Instrument
Rating Powered-Lift Airman Certification
Standards.
FAA–S–ACS–3, Instrument Rating—PoweredLift Airman Certification Standards.
ddrumheller on DSK120RN23PROD with RULES2
FAA–S–ACS–29, Flight Instructor for Rotorcraft
Category Helicopter Rating Airman Certification Standards.
FAA–S–ACS–16, Commercial Pilot for Rotorcraft Category Helicopter Rating Airman Certification Standards.
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1. Added sub-element (e) to AOO I, Preflight Preparation, Task B, Airworthiness Requirements, PL.I.B.K1 (Owner/Operator and pilot-in-command responsibilities).
2. Specified checklists to be completed in PL.V.G.S1 of AOO V, Takeoffs, Landings, and GoArounds, Task G, Running/Roll-On Landing (i.e., the approach and landing checklists).
3. Added PL.VIII.B.S5 to AOO VIII, Navigation, Task B, Navigation and Radar Services (Recognize signal loss or interference and take appropriate action, if applicable).
4. Revised ‘‘Addition of a Powered-Lift Rating to an Existing Private Pilot Certificate’’ table to
specify that selection requirements for Tasks are set forth in the body of the ACS (defined
by an asterisk) rather than a requirement to test all tasks under that AOO.
1. Corrected prefix of ACS Codes for AOO II, Technical Subject Areas, Task E, Regulations
and Publications Related to Instrument Flight Operations.
2. Added note to AOO III, Preflight Preparation, Task B, Cross-Country Flight Planning regarding use of a computer-generated flight plan.
3. Relocated information regarding previously developed lesson plans from the objective for
AOO IV, Preflight Lesson on a Maneuver to be Performed in Flight, Task A, Maneuver Lesson, into a note.
4. Formatting revisions within appendix 1. Practical Test Roles, Responsibilities, and Outcomes.
5. Added instructions to appendix 2 for the evaluator in the case of Task failure due to ADM
considerations.
1. Added note to AOO I, Preflight Preparation, Task C, Cross-Country Flight Planning, regarding use of a computer-generated flight plan.
2. Removed instructor designation within appendix 1, Practical Test Roles, Responsibilities,
and Outcomes, Instrument Proficiency Check.
1. Added the Helicopter Instructor’s Handbook (FAA–H–8083–4) as a reference to various
tasks.
2. Corrected AOO II, Technical Subject Areas, Task I, Navigation Systems and Radar Services, by removing proposed HI.II.I.R5 element requiring the use of autopilot to make appropriate course intercepts (if installed and at the evaluator’s discretion) and adding a new task
element requiring use of an EFB (if used).
3. Removed the AOO II, Technical Subject Areas, Task I, Navigation Systems and Radar
Services task skill element HI.II.I.S5 requiring an applicant Recognize loss of navigational
signal and take appropriate action.
4. Removed the AOO II, Technical Subject Areas, Task I, Navigation Systems and Radar
Services task element HI.II.I.S7 requiring an applicant to maintain the appropriate altitude.
5. Relocated information regarding previously developed lesson plans from the objective for
AOO IV, Preflight Lesson on a Maneuver to be Performed in Flight, Task A, Maneuver Lesson, into a note.
6. Changed AOO V, Preflight Procedures, Task D, Before Takeoff Check, HI.V.D.R1 element
from ‘‘NTSB accident reporting’’ to ‘‘Division of Attention while conducting before takeoff
checks’’.
7. Added risk element HI.V.D.R3, ‘‘Hazardous effects of downwash’’ to AOO V, Preflight Procedures, Task D, Before Takeoff Check.
8. Added notes to AOO VI (Airport and Heliport Operations), AOO VII (Hovering Maneuvers),
AOO VIII (Takeoffs, Landings, and Go-Arounds), and AOO X (Performance Maneuvers)
clarifying minimum Task selection.
9. Revised title of AOO VIII, Takeoffs, Landings, and Go-Arounds, Task B, from ‘‘Normal Approach and Landing’’ to ‘‘Normal and Crosswind Approach’’.
10. Revised element HI.X.B.S9 in AOO X, Performance Maneuvers, Task B, Straight-in-Autorotation in a Single-Engine Helicopter for clarity.
11. Reworded objective of AOO X, Performance Maneuvers, Task C, Autorotation With Turns
in a Single-Engine Helicopter, to remove redundancy.
12. Aligned AOO XI, Emergency Operations, Task E, Recovery from Unusual Flight Attitudes,
HI.XI.E.S1 93 to the Instrument Helicopter ACS.
13. Provided additional guidance to evaluators regarding operations at the start or completion
of a maneuver within appendix 1, in the Evaluator Responsibilities section.
14. Formatting revisions within appendix 1. Practical Test Roles, Responsibilities, and Outcomes.
15. Clarified the requirement in appendix 3, Aircraft, Equipment, and Operational Requirements & Limitations, in the Single and Multiengine Helicopters section that an applicant
must provide a single-engine helicopter capable of demonstrating touchdown autorotations.
16. Added information to appendix 3, Aircraft, Equipment, and Operational Requirements &
Limitations, to indicate that the briefing in reference to AOO XI, Emergency Operations,
Task E, Recovery from Unusual Flight Attitudes, must address any hazards associated with
the rotor system.
1. Added 14 CFR 119.1(e) as a reference to AOO I, Preflight Preparation, Task A, Pilot Qualifications.
2. Added FAA–H–8083–21 to AOO I, Preflight Preparation, Task C, Weather Information.
3. Revised title of AOO V, Takeoffs, Landings, and Go-Arounds, Task B, from ‘‘Normal Approach and Landing’’ to ‘‘Normal and Crosswind Approach’’.
4. Revised CH.VI.B.S9 in AOO VI, Performance Maneuvers, Task B, Straight-in-Autorotation in
a Single-Engine Helicopter for clarity.
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22512
Federal Register / Vol. 89, No. 63 / Monday, April 1, 2024 / Rules and Regulations
TABLE 3—RECORD OF EDITORIAL/MINOR CHANGES—Continued
Document
Changes
FAA–S–ACS–15, Private Pilot for Rotorcraft
Category Helicopter Rating Airman Certification Standards.
FAA–S–ACS–14, Instrument Rating—Helicopter
Airman Certification Standards.
All PTS ................................................................
FAA–S–8081–8C, Flight Instructor Practical
Test Standards for Glider Category.
FAA–S–8081–23B, Commercial Pilot Practical
Test Standards for Glider Category.
FAA–S–8081–22A, Private Pilot Practical Test
Standards for Glider Category.
ddrumheller on DSK120RN23PROD with RULES2
FAA–S–8081–17A, Private Pilot Practical Test
Standards for Lighter-Than-Air Category.
FAA–S–8081–32A, Private Pilot Practical Test
Standards for Powered Parachute Category
and Weight-Shift-Control Aircraft Category.
FAA–S–8081–31A, Sport Pilot and Sport Pilot
Flight Instructor Practical Test Standards for
Powered Parachute Category and WeightShift-Control Category.
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5. Added risk element CH.VIII.B.R7, ‘‘Powerplant failure during the maneuver’’, to AOO VIII,
Emergency Operations, Task B, Powerplant Failure at Altitude in a Single-Engine Helicopter.
6. Aligned AOO VIII, Emergency Operations, Task M, Recovery from Unusual Flight Attitudes,
CH.VIII.M.S1 94 to the Instrument Helicopter ACS.
7. Provided additional guidance to evaluators regarding operations at the start or completion of
a maneuver within appendix 1 in the Evaluator Responsibilities section.
8. Added a note to the added ratings table explaining asterisks in the appendix 1, Practical
Test Practical Test Roles, Responsibilities, and Outcomes.
9. Added information to appendix 3, Aircraft, Equipment, and Operational Requirements & Limitations, in reference to AOO VIII, Emergency Operations, Task M, Recovery from Unusual
Flight Attitudes that the briefing must address any hazards associated with the rotor system.
1. Added FAA–H–8083–21 to AOO I, Preflight Preparation, Task C, Weather Information.
2. Designated task selection for AOO IV, Hovering Maneuvers, and AOO V, Takeoffs, Landings, and Go-Arounds when an applicant provides a helicopter with wheel-type landing gear.
3. Revised title of AOO V, Takeoffs, Landings, and Go-Arounds, Task B, from ‘‘Normal Approach and Landing’’ to ‘‘Normal and Crosswind Approach’’.
4. Revised element PH.VI.B.S9 in AOO VI, Performance Maneuvers, Task B, Straight-in-Autorotation in a Single-Engine Helicopter for clarity.
5. Added risk element PH.VIII.B.R7, ‘‘Powerplant failure during the maneuver,’’ to AOO VIII,
Emergency Operations, Task B, Powerplant Failure at Altitude in a Single-Engine Helicopter.
6. Provided additional guidance to evaluators regarding operations at the start or completion of
a maneuver within appendix 1 in the Evaluator Responsibilities section.
7. Revised ‘‘Addition of a Rotorcraft Category Helicopter Rating to an Existing Private Pilot
Certificate’’ table to specify that selection requirements for Tasks are set forth in the body of
the ACS (defined by an asterisk) rather than a requirement to test all tasks under that AOO.
1. Added note to AOO I, Preflight Preparation, Task C, Cross-Country Flight Planning, regarding use of a computer-generated flight plan.
2. Added note below ‘‘Addition of a Helicopter Rating to an Existing Instrument Rating Certificate’’ table in appendix 1 indicating that AOO VII, Emergency Operations, Task B, Instrument Approach and Landing with an Inoperative Engine (Simulated) (Multiengine Helicopter
Only), applies only if the applicant supplies a multiengine helicopter.
3. Removed instructor designation within appendix 1, Practical Test Roles, Responsibilities,
and Outcomes, Instrument Proficiency Check.
4. Added to appendix 3, Aircraft, Equipment, and Operational Requirements & Limitations, in
reference to AOO IV, Flight by Reference to Instruments, Task B, Recovery from Unusual
Flight Attitudes that the briefing must address any hazards associated with the rotor system.
1. Replaced Area Forecast (FA) with Graphical Forecasts for Aviation (GFA), as applicable.
2. Replaced weather AC 00–6, AC 00–45, and AC 00–54 with the Aviation Weather Handbook
(FAA–H–8083–28).
3. Replaced A/FD with Chart Supplements.
1. Replaced the Soaring Flight Manual with the Glider Flying Handbook (FAA–H–8083–13).
2. Revised AOO II, Technical Subject Areas, Task A, Aeromedical Factors, element 10 to,
‘‘Stress and Fatigue causes, effects, and corrective actions’’.
3. Added AOO II, Technical Subject Areas, Task A, Aeromedical Factors, element 11, ‘‘Visual
Illusions’’.
1. Added AOO I, Preflight Preparation, Task C, Weather Information, element 1.c, ‘‘Contents
of a standard briefing and soaring forecast’’.
2. Added AOO I, Preflight Preparation, Task F, Aeromedical Factors, element 1.i, ‘‘Visual Illusions.’’
3. Revised AOO III, Airport and Gliderport Operations, Task C, Airport, Runway, and Taxiway,
Signs, Marking, and Lighting, element 1, to align with task description.
1. Replaced the Soaring Flight Manual with The Glider Flying Handbook (FAA–H–8083–13).
2. Added AOO I, Preflight Preparation, Task B, Weather Information, element 1.c, ‘‘Contents of
a standard briefing and soaring forecast’’.
3. Added AOO I, Preflight Preparation, Task E, Aeromedical Factors, element 1.i, ‘‘Visual Illusions.’’
4. Revised AOO III, Airport and Gliderport Operations, Task C, Airport, Runway, and Taxiway
Signs, Markings, and Lighting, element 1, to align with task description.
1. Changed AOO I, Preflight Preparation, Task A, Certificates and Documents, element 1.b,
from ‘‘medical statement’’ to ‘‘medical fitness’’.
2. Restored checklist usage element in AOO IV, Launches and Landings, Task B, Launch
Over Obstacle; AOO VI, Navigation, Task A, Navigation; and AOO VII, Emergency Equipment, Task B, Emergency Equipment and Survival Gear.
1. Corrected inconsistent Weight-Shift-Control hyphenation.
1. Corrected inconsistent Weight-Shift-Control hyphenation.
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22513
TABLE 3—RECORD OF EDITORIAL/MINOR CHANGES—Continued
Document
Changes
FAA–S–8081–9E, Flight Instructor Instrument
Practical Test Standards for Airplane Rating
and Helicopter Rating.
FAA–S–8081–10E, Aircraft Dispatcher Practical
Test Standards.
ddrumheller on DSK120RN23PROD with RULES2
E. Out of Scope
The FAA received multiple comments
that were considered out of scope. This
section summarizes such comments and
provides a brief response.
One commenter stated that part 141
pilot schools and part 142 training
centers should be required to report
disapprovals or unsatisfactory results on
final progress checks to the pilot records
database, so all pilots are treated
equally. The FAA notes that the pilot
records database facilitates the sharing
of pilot records among those air carriers,
operators, and entities set forth by 14
CFR 111.1. The applicability provisions
of the part 111 pilot records database do
not include either part 141 pilot schools
or part 142 air agencies, nor did the
FAA contemplate adding disapprovals
for unsatisfactory checks to part 111 in
the NPRM.95
One commenter expressed concern
about the testing standards in part 65 for
91 See section IV.C. of this preamble for additional
information on changes to the elements within this
task due to coding.
92 Because the FAA designates instructors giving
an IPC as evaluators, the term ‘‘evaluator’’ would
inherently include instructors.
93 As discussed in section VI.B.2.iii of this
preamble, the adopted Flight Instructor for
Rotorcraft Category Helicopter Rating ACS adds the
task Flight Solely by Reference to Instruments as
AOO X, Task D. As a result, the lettering in the
subsequent tasks shifted by one letter. Therefore,
this element appeared in the proposed ACS as
HI.XI.D.S1 under the Recovery from Unusual Flight
Attitudes Task D, now Task E.
94 As discussed in section VI.B.2.iii of this
preamble, the adopted Commercial Pilot for
Rotorcraft Category Helicopter Rating ACS adds the
task Flight Solely by Reference to Instruments as
AOO VIII, Task L. As a result, the lettering in the
subsequent tasks shifted by one letter. Therefore,
this element appeared in the proposed ACS as
CH.VIII.L.S1 under the Recovery from Unusual
Flight Attitudes Task L, now Task M.
95 In 2010, Congress directed the Administrator to
establish the pilot records database. 49 U.S.C.
44703(i). The plain language of the statute only
permits the FAA to require employers of pilots to
report records. Part 142 training centers and part
141 pilot schools do not qualify as the employers
of the pilots who receive training and checking. See
Pilot Records Database, 86 FR 31016 (Jun. 10,
2021).
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1. Replaced TIBS and TWEB with sources of weather data in AOO III, Preflight Preparation,
Task A, Weather Information, element 1.b and removed from abbreviations/acronyms list.
2. Corrected ‘‘Pilot heat’’ to read ‘‘Pitot heat’’.
3. Removed Stability Chart from element 2.h in AOO III, Preflight Preparation, Task A, Weather Information.
1. Removed EWINS from AOO I, Flight Planning/Dispatch Release, Task C, Weather Observation, Analysis, and Forecasts.
2. Removed footnote 4 regarding AELS in AOO I, Flight Planning/Dispatch Release, Task E,
Aircraft Systems, Performance, and Limitations.
3. Removed approaches list from element 5 in AOO IV, Arrival, Approach, and Landing Procedures, Task A, ATC and Air Navigation Procedures.
4. Removed ETOPS, EWINS, PAR, and PRM from Acronyms/Abbreviations list.
airmen other than flight crewmembers.
Specifically, the commenter stated that,
while the written exam (knowledge test)
and oral exam for mechanics are graded
to a minimum 70% passing score, the
practical test for mechanics should be
passed to a 100% score. The FAA notes
that passing rate for all part 65 tests is
set forth in § 65.17(b) and applies to
those tests for applicants of an air traffic
control, aircraft dispatcher, mechanic,
repairman, and parachute rigger
certificate. This rulemaking did not
propose any changes to the passing rates
for any airmen testing and, therefore,
considers any changes to the required
score outside of the scope of this final
rule. The FAA may consider rulemaking
on this topic at a future date.
One commenter asked if the
definition of autorotation in 14 CFR part
1 required a change to include poweredlift aircraft, as it currently only applies
to rotorcraft. First, the FAA notes that
the powered-lift ACS do not use the
term ‘‘autorotation.’’ Further, the FAA
did not propose any changes to
definitions within 14 CFR 1.1 and,
therefore, considers changing the
definition of autorotation out of the
scope of this rulemaking. As previously
discussed in this preamble, the
powered-lift rulemaking project is the
more appropriate vehicle to contemplate
discrete issues in the certification of
powered-lift and airmen that will
operate such aircraft, including the
applicability of autorotation as a term.
The FAA will reconcile the powered-lift
final rule with this final rule, as
applicable.
The ARAC ACS WG commented that
the ground instructor certificate should
have its own ACS incorporated by
reference. Subpart I of part 61 governs
the requirements for the issuance and
conditions and limitations of ground
instructor certificates and ratings.
Among other eligibility requirements, a
ground instructor is required to take
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only a knowledge test; 96 there is no
practical test associated with a ground
instructor certificate or rating.
Therefore, the FAA did not draft a
ground instructor PTS or ACS.
Additionally, as the regulated
community would not have had an
opportunity to inspect the draft, it
would obviate notice and comment
procedures under the APA. Therefore, at
this time, a ground instructor standard
is out of scope of this rulemaking but
may be considered at a future date.
One commenter made several
suggestions to address vertical flight
infrastructure standards such as
heliports, helistops, helidecks,
Emergency Helicopter Landing
Facilities (EHLF), Predesignated
Emergency Landing Areas (PELA),
vertiports, vertistops and droneports.
The commenter expressed that these
vertical flight infrastructure elements
are safety sensitive, and yet there are
little to no test questions about this
subject area, resulting in little training.
The commenter asserted that education
materials must contain information
about this subject area before test
questions and, thus, requested the FAA
to include vertical flight infrastructure
subject matter into certain handbooks,
and, eventually, the powered-lift and
helicopter ACS. The FAA notes that it
can revise information in handbooks
outside of rulemaking, as the APA does
not apply to these guidance documents,
and the FAA may do so to account for
future ACS updates. Additionally, the
majority of the helicopter and poweredlift ACS include the area of operation
‘‘Airport and Heliport Operations,’’
which should encompass testing (and
training) regarding these assets that
comprise vertical infrastructure.
V. Regulatory Notices and Analyses
Federal agencies consider impacts of
regulatory actions under a variety of
executive orders and other
96 14
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requirements. First, Executive Order
12866 and Executive Order 13563, as
amended by Executive Order 14094
(‘‘Modernizing Regulatory Review’’),
direct that each Federal agency shall
propose or adopt a regulation only upon
a reasoned determination that the
benefits of the intended regulation
justify the costs. Second, the Regulatory
Flexibility Act of 1980 (Pub. L. 96–354)
requires agencies to analyze the
economic impact of regulatory changes
on small entities. Third, the Trade
Agreements Act (Pub. L. 96–39)
prohibits agencies from setting
standards that create unnecessary
obstacles to the foreign commerce of the
United States. Fourth, the Unfunded
Mandates Reform Act of 1995 (Pub. L.
104–4) requires agencies to prepare a
written assessment of the costs, benefits,
and other effects of proposed or final
rules that include a Federal mandate
that may result in the expenditure by
State, local, and Tribal governments, in
the aggregate, or by the private sector, of
$100,000,000 or more (adjusted
annually for inflation) in any one year.
The current threshold after adjustment
for inflation is $177,000,000, using the
most current (2022) Implicit Price
Deflator for the Gross Domestic Product.
This portion of the preamble
summarizes the FAA’s analysis of the
economic impacts of this rule.
In conducting these analyses, the FAA
determined that this rule: will result in
benefits that justify costs; is not a
‘‘significant regulatory action’’ as
defined in section 3(f) of Executive
Order 12866 as amended by Executive
Order 14094; will not have a significant
economic impact on a substantial
number of small entities; will not create
unnecessary obstacles to the foreign
commerce of the United States; and will
not impose an unfunded mandate on
State, local, or Tribal governments, or
on the private sector.
A. Regulatory Evaluation
On December 12, 2022, the FAA
published a Notice of Proposed
Rulemaking (NPRM) and received
comments from 39 individuals and
organizations on the proposed rule.
However, none of these comments
expressed concerned with economic
impacts of the proposal. Therefore, this
regulatory evaluation has no new
changes over the regulatory analyses
provided in the NPRM.
Through this rulemaking, the FAA
incorporated certain PTS and ACS by
reference into parts 61, 63, and 65 so the
standards carry the full force and effect
of regulation. Because of the unique
nature of the PTS and ACS documents,
which are lengthy and contain complex
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and technical tables, the FAA used the
mechanism of IBR. IBR allows Federal
agencies to comply with the
requirements of the APA to publish
rules in the Federal Register and the
Code of Federal Regulations by referring
to material published elsewhere.
Material that is incorporated by
reference has the same legal status as if
it were published in full in the Federal
Register and the Code of Federal
Regulations.
1. Baseline for the Analysis
Title 14 CFR parts 61, 63, and 65
prescribe the requirements for airmen to
obtain a certificate and/or rating. Each
part contains the general requirements
for eligibility, aeronautical knowledge,
flight proficiency, and aeronautical
experience requirements, as applicable,
for each certificate and/or rating sought.
This generally includes the requirement
to pass a practical test specific to the
certificate and/or rating sought.
The PTS and the ACS impose
requirements on all persons seeking an
airman certificate and/or rating. The
PTS and ACS require an applicant
seeking a certificate and/or rating to
complete specific tasks and maneuvers
to a minimum given standard in order
to obtain the applicable certificate and/
or rating. As such, if an applicant does
not perform a task to the prescribed
standard, found in the applicable ACS
or PTS, the applicant cannot obtain the
applicable certificate and/or rating.
Unsatisfactory performance results in a
notice of disapproval and/or denial of
the certificate and/or rating. The PTS
and the ACS, which are finalized by this
rule to be incorporated by reference, are
the testing standards that are already in
use or the process by which the
practical test is conducted.
2. Benefits
The mechanism of IBR allows Federal
Agencies to comply with the
requirement to publish rules in the
Federal Register and the CFR by
referring to material already published
elsewhere.97 IBR functions to
substantially reduce the size of 14 CFR
parts 61, 63, and 65, which would
otherwise require the PTS and ACS to
be replicated in their entirety into the
regulations, resulting in hundreds of
additional pages including complex and
technical tables that would be
unsuitable for the CFR. The FAA will
continue to draw on the expertise and
resources of the aviation industry to
develop and update the testing
standards and strengthen private-public
97 IBR Handbook, Office of the Federal Register
(June, 2023).
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collaboration and transparency. IBR will
maintain public and private industry
collaboration. Additionally, while the
practical tests are currently conducted
in accordance with the PTS and ACS,
applicants for a certificate and/or rating,
and pilots completing proficiency
checks, will be better informed about
the exact tasks and objectives required
to successfully complete each area of
operation because evaluators will be
required to test on the exact tasks
contained in the applicable PTS and/or
ACS. Further, instructors are
encouraged to utilize the applicable
ACS and/or PTS during training to
ensure applicants are equipped with the
knowledge and proficiency to
successfully complete a practical test or
proficiency check. Applicants and
instructors are, therefore, benefitted by
transparency and specificity in test
preparation.
3. Costs
The FAA has evaluated the cost
impacts to the stakeholders involved in
this final rule, which includes airmen
and the FAA. As discussed in the NPRM
preamble, the FAA noted the addition of
tasks within four ACS (Commercial
Pilot for Airplane Category ACS, Private
Pilot for Rotorcraft Category Helicopter
Rating ACS, Commercial Pilot for
Rotorcraft Category Helicopter Rating
ACS, and Flight Instructor for Rotorcraft
Category Helicopter Rating ACS).98
Additionally, since the NPRM, the FAA
notes the addition of the task Flight
Solely by Reference to Instruments
within two ACS (Flight Instructor for
Rotorcraft Category Helicopter Rating
ACS and Commercial Pilot for
Rotorcraft Category Helicopter Rating
ACS) from an outgrowth of ARAC ACS
WG comments.99 The FAA determined
these additions would add negligible
amount of time to the completion of
ACS, but will have no quantifiable cost
impact. These added tasks may be
completed concurrently with tasks
already required on the transitioned
98 Specifically, the NPRM highlighted tasks in the
proposed ACS: (1) the Forward Slip to the Landing
task requirement (see note following Addition of an
Airplane Single-Engine Land Rating to an Existing
Commercial Pilot Certificate) in the Commercial
Pilot for Airplane Category ACS; (2) the Approach
and Landing with One Engine Inoperative task
(AOO VII, Task C) in the Private Pilot for Rotorcraft
Category Helicopter Rating ACS; (3) the AntiTorque System Failure (Oral Only) task (AOO VIII,
Task G), the Recovery from Unusual Flight
Attitudes task (AOO VIII, Task M), and the Night
Operations task (AOO I, Task I) in the Commercial
Pilot for Rotorcraft Category Helicopter Rating ACS;
and (4) the Recovery from Unusual Flight Attitudes
task (AOO XI, Task E) in the Flight Instructor for
Rotorcraft Category Helicopter Rating ACS. See 87
FR 75962.
99 See section IV.B.2.iii of this preamble for
additional discussion on this task.
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ACS and add a few minutes to the
requisite practical test. In sum, the FAA
anticipates this final rule will result in
no additional cost impacts to airmen
and the FAA.
i. Applicants and Airmen
The FAA does not anticipate new
costs to applicants for an initial
certificate and/or rating and existing
airmen (e.g., pilots completing
proficiency checks, pilots seeking
additional certificates and/or ratings)
because there are no substantive
changes to the testing processes, areas of
operation, or elements upon which
airmen are currently tested in order to
obtain a certificate, as the practical tests
are already conducted in accordance
with the applicable ACS/PTS. Rather,
this rule incorporates the documents by
reference into the regulations to ensure
compliance with the APA and provide
the public with requisite notice and an
opportunity to comment. Therefore,
applicants seeking a certificate and/or
rating and currently certificated pilots
performing proficiency checks will not
incur additional costs.
ii. The FAA
The FAA does not anticipate new
costs to the agency because the FAA is
not changing the process by which
testing is conducted or the manner in
which PTS and ACS are currently
implemented.
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4. Regulatory Alternatives
The FAA did not consider regulatory
alternatives for this final rule as there
are no legally supportable alternatives to
mandating the requirements for airman
certification and ensuring consistent
standards for airman certificates and
ratings.
B. Regulatory Flexibility Act
The Regulatory Flexibility Act (RFA)
of 1980, Public Law 96–354, as
amended by the Small Business
Regulatory Enforcement Fairness Act of
1996 (Pub. L. 104–121) and the Small
Business Jobs Act of 2010 (Pub. L. 111–
240), require Federal agencies to
consider the effects of the regulatory
action on small business and other
small entities and to minimize any
significant economic impact. The term
‘‘small entities’’ comprises small
businesses and not-for-profit
organizations that are independently
owned and operated and are not
dominant in their fields, and
governmental jurisdictions with
populations of less than 50,000.
The FAA has not identified any small
entities that would be affected by the
final rule because this rule does not
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affect the content of the practical test or
how the practical test is currently
conducted. While there are many small
entities that employ persons who
conduct practical tests on behalf of the
Administrator and administer
proficiency checks for airmen, there are
no changes to these existing procedures
and exams, in practice (i.e., evaluators
already utilize the applicable ACS and/
or PTS). Therefore, for the reasons
provided, the FAA certifies that the rule
will not have a significant economic
impact on a substantial number of small
entities.
C. International Trade Impact
Assessment
The Trade Agreements Act of 1979
(Pub. L. 96–39), as amended by the
Uruguay Round Agreements Act (Pub.
L. 103–465), prohibits Federal agencies
from establishing standards or engaging
in related activities that create
unnecessary obstacles to the foreign
commerce of the United States.
Pursuant to these Acts, the
establishment of standards is not
considered an unnecessary obstacle to
the foreign commerce of the United
States, so long as the standard has a
legitimate domestic objective, such as
the protection of safety, and does not
operate in a manner that excludes
imports that meet this objective. The
statute also requires consideration of
international standards and, where
appropriate, that they be the basis for
U.S. standards. The FAA has assessed
the potential effects of this rule and
finds it does not create an unnecessary
obstacle to foreign commerce.
D. Unfunded Mandates Assessment
The Unfunded Mandates Reform Act
of 1995 (2 U.S.C. 1531–1538) governs
the issuance of Federal regulations that
require unfunded mandates. An
unfunded mandate is a regulation that
requires a State, local, or Tribal
government or the private sector to
incur direct costs without the Federal
government having first provided the
funds to pay those costs. The FAA
determined that this final rule will not
result in the expenditure of $177
million or more by State, local, or Tribal
governments, in the aggregate, or the
private sector, in any one year.
E. Paperwork Reduction Act
The Paperwork Reduction Act of 1995
(44 U.S.C. 3507(d)) requires that the
FAA consider the impact of paperwork
and other information collection
burdens imposed on the public. The
FAA has determined that there is no
new requirement for information
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22515
collection associated with this final
rule.
F. International Compatibility
In keeping with U.S. obligations
under the Convention on International
Civil Aviation, it is FAA policy to
conform to International Civil Aviation
Organization (ICAO) Standards and
Recommended Practices to the
maximum extent practicable. The FAA
has determined that there are no ICAO
Standards and Recommended Practices
that correspond to these regulations.
G. Environmental Analysis
FAA Order 1050.1F identifies FAA
actions that are categorically excluded
from preparation of an environmental
assessment or environmental impact
statement under the National
Environmental Policy Act (NEPA) in the
absence of extraordinary circumstances.
The FAA has determined this
rulemaking action qualifies for the
categorical exclusion identified in
paragraph 5–6.6f for regulations and
involves no extraordinary
circumstances.
VI. Executive Order Determinations
A. Executive Order 13132, Federalism
The FAA has analyzed this final rule
under the principles and criteria of
Executive Order 13132, Federalism. The
FAA has determined that this action
will not have a substantial direct effect
on the States, or the relationship
between the Federal Government and
the States, or on the distribution of
power and responsibilities among the
various levels of government, and,
therefore, will not have federalism
implications.
B. Executive Order 13175, Consultation
and Coordination With Indian Tribal
Governments
Consistent with Executive Order
13175, Consultation and Coordination
with Indian Tribal Governments,100 and
FAA Order 1210.20, American Indian
and Alaska Native Tribal Consultation
Policy and Procedures,101 the FAA
ensures that Federally Recognized
Tribes (Tribes) are given the opportunity
to provide meaningful and timely input
regarding proposed Federal actions that
have the potential to have substantial
direct effects on one or more Indian
tribes, on the relationship between the
Federal government and Indian tribes,
or on the distribution of power and
responsibilities between the Federal
100 65
FR 67249 (Nov. 6, 2000).
Order No. 1210.20 (Jan. 28, 2004),
available at https://www.faa.gov/documentLibrary/
media/1210.pdf.
101 FAA
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government and Indian tribes; or to
affect uniquely or significantly their
respective Tribes. At this point, the FAA
has not identified any unique or
significant effects, environmental or
otherwise, on Tribes resulting from this
final rule.
All documents the FAA considered in
developing this final rule, including
economic analyses and technical
reports, may be accessed in the
electronic docket for this rulemaking.
C. Executive Order 13211, Regulations
That Significantly Affect Energy Supply,
Distribution, or Use
The Small Business Regulatory
Enforcement Fairness Act (SBREFA) of
1996 requires the FAA to comply with
small entity requests for information or
advice about compliance with statutes
and regulations within its jurisdiction.
A small entity with questions regarding
this document may contact its local
FAA official, or the person listed under
the FOR FURTHER INFORMATION CONTACT
heading at the beginning of the
preamble. To find out more about
SBREFA on the internet, visit https://
www.faa.gov/regulations_policies/
rulemaking/sbre_act/.
The FAA analyzed this final rule
under Executive Order 13211, Actions
Concerning Regulations that
Significantly Affect Energy Supply,
Distribution, or Use. The FAA has
determined that it is not a ‘‘significant
energy action’’ under the executive
order and is not likely to have a
significant adverse effect on the supply,
distribution, or use of energy.
D. Executive Order 13609, Promoting
International Regulatory Cooperation
Executive Order 13609, Promoting
International Regulatory Cooperation,
promotes international regulatory
cooperation to meet shared challenges
involving health, safety, labor, security,
environmental, and other issues and to
reduce, eliminate, or prevent
unnecessary differences in regulatory
requirements. The FAA has analyzed
this action under the policies and
agency responsibilities of Executive
Order 13609, and has determined that
this action will have no effect on
international regulatory cooperation.
List of Subjects
VII. Additional Information
Air traffic controllers, Aircraft,
Airmen, Airports, Aviation safety,
Incorporation by reference, Reporting
and recordkeeping requirements.
A. Electronic Access and Filing
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B. Small Business Regulatory
Enforcement Fairness Act
A copy of the NPRM, all comments
received, this final rule, and all
background material may be viewed
online at https://www.regulations.gov
using the docket number listed above. A
copy of this final rule was placed in the
docket. Electronic retrieval help and
guidelines are available on the website.
It is available 24 hours each day, 365
days each year. An electronic copy of
this document may also be downloaded
from the Office of the Federal Register’s
website at https://
www.federalregister.gov and the
Government Publishing Office’s website
at https://www.govinfo.gov. A copy may
also be found at the FAA’s Regulations
and Policies website at https://
www.faa.gov/regulations_policies.
Copies may also be obtained by
sending a request to the Federal
Aviation Administration, Office of
Rulemaking, 800 Independence Avenue
SW, Washington, DC 20591, or by
calling (202) 267–9677. Commenters
must identify the docket or notice
number of this rulemaking.
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14 CFR Part 61
Aircraft, Airmen, Aviation safety,
Incorporation by reference, Recreation
and recreation areas, Reporting and
recordkeeping requirements, Teachers.
14 CFR Part 63
Aircraft, Airmen, Aviation safety,
Incorporation by reference, Navigation
(air), Reporting and recordkeeping
requirements.
14 CFR Part 65
The Amendment
In consideration of the foregoing, the
Federal Aviation Administration
amends chapter I of title 14, Code of
Federal Regulations as follows:
PART 61—CERTIFICATION: PILOTS,
FLIGHT INSTRUCTORS, AND GROUND
INSTRUCTORS
1. The authority citation for part 61 is
revised to read as follows:
■
Authority: 49 U.S.C. 106(f), 106(g), 40113,
44701–44703, 44707, 44709–44711, 44729,
44903, 45102–45103, 45301–45302; Sec.
2307 Pub. L. 114–190, 130 Stat. 615 (49
U.S.C. 44703 note); and sec. 318, Pub. L.
115–254, 132 Stat. 3186 (49 U.S.C. 44703
note).
■
2. Add § 61.14 to read as follows:
§ 61.14
Incorporation by Reference.
Certain material is incorporated by
reference into this part with the
approval of the Director of the Federal
Register under 5 U.S.C. 552(a) and 1
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CFR part 51. All approved incorporation
by reference (IBR) material is available
for inspection at the Federal Aviation
Administration (FAA) and at the
National Archives and Records
Administration (NARA). Contact FAA,
Training and Certification Group, 202–
267–1100, ACSPTSinquiries@faa.gov.
For information on the availability of
this material at NARA, visit
www.archives.gov/federal-register/cfr/
ibr-locations or email fr.inspection@
nara.gov. The material may be obtained
from the Federal Aviation
Administration, 800 Independence
Avenue SW, Washington DC 20591,
866–835–5322, www.faa.gov/training_
testing.
(a) Practical Test Standards. (1) FAA–
S–8081–3B, Recreational Pilot Practical
Test Standards for Airplane Category
and Rotorcraft Category, November
2023; IBR approved for § 61.43 and
appendix A to this part.
(2) FAA–S–8081–7C, Flight Instructor
Practical Test Standards for Rotorcraft
Category Gyroplane Rating, November
2023; IBR approved for § 61.43 and
appendix A to this part.
(3) FAA–S–8081–8C, Flight Instructor
Practical Test Standards for Glider
Category, November 2023; IBR approved
for § 61.43 and appendix A to this part.
(4) FAA–S–8081–9E, Flight Instructor
Instrument Practical Test Standards for
Airplane Rating and Helicopter Rating,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(5) FAA–S–8081–15B, Private Pilot
Practical Test Standards for Rotorcraft
Category Gyroplane Rating, November
2023; IBR approved for § 61.43 and
appendix A to this part.
(6) FAA–S–8081–16C, Commercial
Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(7) FAA–S–8081–17A, Private Pilot
Practical Test Standards for LighterThan-Air Category, November 2023; IBR
approved for § 61.43 and appendix A to
this part.
(8) FAA–S–8081–18A, Commercial
Pilot Practical Test Standards for
Lighter-Than-Air Category, November
2023; IBR approved for § 61.43 and
appendix A to this part.
(9) FAA–S–8081–20A, Airline
Transport Pilot and Aircraft Type Rating
Practical Test Standards for Rotorcraft
Category Helicopter Rating, November
2023; IBR approved for §§ 61.43 and
61.58, and appendix A to this part.
(10) FAA–S–8081–22A, Private Pilot
Practical Test Standards for Glider
Category, November 2023; IBR approved
for § 61.43 and appendix A to this part.
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(11) FAA–S–8081–23B, Commercial
Pilot Practical Test Standards for Glider
Category, November 2023; IBR approved
for § 61.43 and appendix A to this part.
(12) FAA–S–8081–29A, Sport Pilot
and Sport Pilot Flight Instructor Rating
Practical Test Standards for Airplane
Category, Rotorcraft Category, and
Glider Category, November 2023; IBR
approved for §§ 61.43, 61.321, and
61.419, and appendix A to this part.
(13) FAA–S–8081–30A, Sport Pilot
and Sport Pilot Flight Instructor Rating
Practical Test Standards for LighterThan-Air Category, November 2023; IBR
approved for §§ 61.43, 61.321, and
61.419, and appendix A to this part.
(14) FAA–S–8081–31A, Sport Pilot
and Sport Pilot Flight Instructor
Practical Test Standards for Powered
Parachute Category and Weight-ShiftControl Aircraft Category, November
2023; IBR approved for §§ 61.43, 61.321,
and 61.419, and appendix A to this part.
(15) FAA–S–8081–32A Private Pilot
Practical Test Standards for Powered
Parachute Category and Weight-ShiftControl Aircraft Category, November
2023; IBR approved for § 61.43 and
appendix A to this part.
(b) Airman Certification Standards.
(1) FAA–S–ACS–2, Commercial Pilot for
Powered-Lift Category Airman
Certification Standards, November 2023;
IBR approved for § 61.43 and appendix
A to this part.
(2) FAA–S–ACS–3, Instrument
Rating—Powered-Lift Airman
Certification Standards, November 2023;
IBR approved for §§ 61.43 and 61.57,
and appendix A to this part.
(3) FAA–S–ACS–6C, Private Pilot for
Airplane Category Airman Certification
Standards, November 2023; IBR
approved for § 61.43 and appendix A to
this part.
(4) FAA–S–ACS–7B, Commercial
Pilot for Airplane Category Airman
Certification Standards, November 2023;
IBR approved for § 61.43 and appendix
A to this part.
(5) FAA–S–ACS–8C, Instrument
Rating—Airplane Airman Certification
Standards, November 2023; IBR
approved for §§ 61.43 and 61.57, and
appendix A to this part.
(6) FAA–S–ACS–11A, Airline
Transport Pilot and Type Rating for
Airplane Category Airman Certification
Standards, November 2023; IBR
approved for §§ 61.43 and 61.58, and
appendix A to this part.
(7) FAA–S–ACS–13, Private Pilot for
Powered-Lift Category Airman
Certification Standards, November 2023;
IBR approved for § 61.43 and appendix
A to this part.
(8) FAA–S–ACS–14, Instrument
Rating—Helicopter Airman Certification
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Standards, November 2023; IBR
approved for §§ 61.43 and 61.57, and
appendix A to this part.
(9) FAA–S–ACS–15, Private Pilot for
Rotorcraft Category Helicopter Rating
Airman Certification Standards,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(10) FAA–S–ACS–16, Commercial
Pilot for Rotorcraft Category Helicopter
Rating Airman Certification Standards,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(11) FAA–S–ACS–17, Airline
Transport Pilot and Type Rating for
Powered-Lift Category Airman
Certification Standards, November 2023;
IBR approved for §§ 61.43 and 61.58,
and appendix A to this part.
(12) FAA–S–ACS–25, Flight
Instructor for Airplane Category Airman
Certification Standards, November 2023;
IBR approved for § 61.43 and appendix
A to this part.
(13) FAA–S–ACS–27, Flight
Instructor for Powered-Lift Category
Airman Certification Standards,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(14) FAA–S–ACS–28, Flight
Instructor—Instrument Rating PoweredLift Airman Certification Standards,
November 2023; IBR approved for
§ 61.43 and appendix A to this part.
(15) FAA–S–ACS–29, Flight
Instructor for Rotorcraft Category
Helicopter Rating Airman Certification
Standards, November 2023; IBR
approved for § 61.43 and appendix A to
this part.
3. Amend § 61.43 by revising
paragraphs (a)(1) through (3) to read as
follows:
■
§ 61.43 Practical tests: General
procedures.
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§ 61.57 Recent Flight Experience: Pilot in
Command.
*
*
*
*
*
(d) * * *
(1) Except as provided in paragraph
(e) of this section, a person who has
failed to meet the instrument experience
requirements of paragraph (c) of this
section for more than six calendar
months may reestablish instrument
currency only by completing an
instrument proficiency check. The
instrument proficiency check must
include the areas of operation contained
in the applicable Airman Certification
Standards (incorporated by reference,
see § 61.14) as listed in appendix A of
this part as appropriate to the rating
held.
*
*
*
*
*
■ 5. Amend § 61.58 by revising
paragraph (d)(1) to read as follows:
§ 61.58 Pilot in command proficiency
check: Operation of an aircraft that requires
more than one pilot flight crewmember or
is turbojet-powered.
*
*
*
*
*
(d) * * *
(1) A pilot-in-command proficiency
check conducted by a person authorized
by the Administrator, consisting of the
areas of operation contained in the
applicable Airman Certification
Standards or Practical Test Standards
(incorporated by reference, see § 61.14);
as listed in appendix A of this part
appropriate to the rating held, in an
aircraft that is type certificated for more
than one pilot flight crewmember or is
turbojet powered;
*
*
*
*
*
■ 6. Amend § 61.157 by revising
paragraphs (e) introductory text, and
(e)(1) through (3) to read as follows:
§ 61.157
(a) * * *
(1) Performing the tasks specified in
the areas of operation contained in the
applicable Airman Certification
Standards or Practical Test Standards
(incorporated by reference, see § 61.14)
as listed in appendix A of this part for
the airman certificate or rating sought;
(2) Demonstrating mastery of the
aircraft by performing each task
required by paragraph (a)(1) of this
section successfully;
(3) Demonstrating proficiency and
competency of the tasks required by
paragraph (a)(1) of this section within
the approved standards; and
*
*
*
*
*
■ 4. Amend § 61.57 by revising
paragraph (d)(1) introductory text to
read as follows:
22517
Flight proficiency.
*
*
*
*
*
(e) Areas of Operation. A practical test
will include normal and abnormal
procedures, as applicable, within the
areas of operation for practical tests for
an airplane category and powered-lift
category rating.
(1) For an airplane category—single
engine class rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Landings;
(iv) In-flight maneuvers;
(v) Stall Prevention;
(vi) Instrument procedures;
(vii) Emergency operations; and
(viii) Postflight procedures.
(2) For an airplane category—
multiengine class rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Landings;
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(iv) In-flight maneuvers;
(v) Stall Prevention.
(vi) Instrument procedures;
(vii) Emergency operations; and
(viii) Postflight procedures.
(3) For a powered-lift category rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Departure phase;
(iv) In-flight maneuvers;
(v) Instrument procedures;
(vi) Landings and approaches to
landings;
(vii) Emergency operations; and
(viii) Postflight procedures.
*
*
*
*
*
■ 7. Amend § 61.321 by revising
paragraph (b) to read as follows:
(b) Successfully complete a
proficiency check from an authorized
instructor, other than the instructor who
trained you, consisting of the tasks in
the appropriate areas of operation
contained in the applicable Practical
Test Standards (incorporated by
reference, see § 61.14) as listed in
appendix A of this part for the
additional light-sport aircraft privilege
you seek;
*
*
*
*
*
■ 8. Amend § 61.419 by revising
paragraph (b) to read as follows:
§ 61.321 How do I obtain privileges to
operate an additional category or class of
light-sport aircraft?
*
*
*
*
*
*
§ 61.419 How do I obtain privileges to
provide training in an additional category or
class of light-sport aircraft?
9. Add appendix A to part 61 to read
as follows:
■
Appendix A to Part 61—Airman
Certification Standards and Practical
Test Standards
*
*
*
*
(b) Successfully complete a
proficiency check from an authorized
instructor, other than the instructor who
If you are seeking this certificate, rating, and/or privilege . . .
Then this ACS/PTS (incorporated by reference, see § 61.14) is
applicable:
Airline Transport Pilot Certificate; Airplane Category—Single-Engine
Land Rating, Airplane Category—Single-Engine Sea Rating, Airplane
Category—Multiengine Land Rating, Airplane Category—Multiengine
Sea Rating.
Airline Transport Pilot Certificate; Rotorcraft Category—Helicopter Rating.
FAA–S–ACS–11A, Airline Transport Pilot and Type Rating for Airplane
Category Airman Certification Standards, November 2023.
Airline Transport Pilot Certificate; Powered-Lift Category .......................
Commercial Pilot Certificate; Airplane Category—Single-Engine Land
Rating, Airplane Category—Single-Engine Sea Rating, Airplane Category—Multiengine Land Rating, Airplane Category—Multiengine
Sea Rating.
Commercial Pilot Certificate; Rotorcraft Category—Helicopter Rating ....
Commercial Pilot Certificate; Rotorcraft Category—Gyroplane Rating ...
Commercial Pilot Certificate; Powered-Lift Category ...............................
Commercial Pilot Certificate; Glider Category .........................................
Commercial Pilot Certificate; Lighter-Than-Air Category—Airship Rating, Lighter-Than-Air Category—Balloon Rating.
Private Pilot Certificate; Airplane Category—Single-Engine Land Rating, Airplane Category—Single-Engine Sea Rating, Airplane Category—Multiengine Land Rating, Airplane Category—Multiengine
Sea Rating.
Private Pilot Certificate; Rotorcraft Category—Helicopter Rating ............
Private Pilot Certificate; Rotorcraft Category—Gyroplane Rating ...........
Private Pilot Certificate; Powered-Lift Category .......................................
Private Pilot Certificate; Glider Category .................................................
ddrumheller on DSK120RN23PROD with RULES2
trained you, consisting of the tasks in
the appropriate areas of operation
contained in the applicable Practical
Test Standards (incorporated by
reference, see § 61.14) as listed in
appendix A of this part for the
additional category and class flight
instructor privilege you seek;
*
*
*
*
*
FAA–S–8081–20A, Airline Transport Pilot and Aircraft Type Rating
Practical Test Standards for Rotorcraft Category Helicopter Rating,
November 2023.
FAA–S–ACS–17, Airline Transport Pilot and Type Rating for PoweredLift Category Airman Certification Standards, November 2023.
FAA–S–ACS–7B, Commercial Pilot for Airplane Category Airman Certification Standards, November 2023.
FAA–S–ACS–16, Commercial Pilot for Rotorcraft Category Helicopter
Rating Airman Certification Standards, November 2023.
FAA–S–8081–16C, Commercial Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating, November 2023.
FAA–S–ACS–2, Commercial Pilot for Powered-Lift Category Airman
Certification Standards, November 2023.
FAA–S–8081–23B, Commercial Pilot Practical Test Standards for Glider Category, November 2023.
FAA–S–8081–18A, Commercial Pilot Practical Test Standards for
Lighter-Than-Air Category, November 2023.
FAA–S–ACS–6C, Private Pilot for Airplane Category Airman Certification Standards, November 2023.
FAA–S–ACS–15, Private Pilot for Rotorcraft Category Helicopter Rating Airman Certification Standards, November 2023.
FAA–S–8081–15B, Private Pilot Practical Test Standards for Rotorcraft
Category Gyroplane Rating, November 2023.
FAA–S–ACS–13, Private Pilot for Powered-Lift Category Airman Certification Standards, November 2023.
FAA–S–8081–22A, Private Pilot Practical Test Standards for Glider
Category, November 2023.
FAA–S–8081–17A, Private Pilot Practical Test Standards for LighterThan-Air Category, November 2023.
FAA–S–8081–32A, Private Pilot Practical Test Standards for Powered
Parachute Category and Weight-Shift-Control Category, November
2023.
Private Pilot Certificate; Lighter-Than-Air Category—Airship Rating,
Lighter-Than-Air Category—Balloon Rating.
Private Pilot Certificate; Powered Parachute Category—Land Rating,
Powered Parachute Category—Sea Rating, Weight-Shift-Control Aircraft Category—Land Rating, Weight-Shift-Control Aircraft Category—Sea Rating.
Recreational Pilot Certificate; Airplane Category—Single-Engine Land
FAA–S–8081–3B, Recreational Pilot Practical Test Standards for AirRating, Airplane Category—Single-Engine Sea Rating, Rotorcraft
plane Category and Rotorcraft Category, November 2023.
Category—Helicopter Rating, Rotorcraft Category—Gyroplane Rating.
Sport Pilot Certificate; Airplane Category—Single-Engine Land PriviFAA–S–8081–29A, Sport Pilot and Sport Pilot Flight Instructor Rating
leges, Airplane Category—Single-Engine Sea Privileges, Rotorcraft
Practical Test Standards for Airplane Category, Rotorcraft Category,
Category—Gyroplane Privileges, Glider Category.
and Glider Category, November 2023.
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Then this ACS/PTS (incorporated by reference, see § 61.14) is
applicable:
If you are seeking this certificate, rating, and/or privilege . . .
Flight Instructor Certificate with a Sport Pilot Rating; Airplane Category—Single-Engine Privileges, Rotorcraft Category—Gyroplane
Privileges, Glider Category.
Sport Pilot Certificate; Lighter-Than-Air Category—Airship Privileges,
Lighter-Than-Air Category—Balloon Privileges.
Flight Instructor Certificate with a Sport Pilot Rating; Lighter-Than-Air
Category—Airship Privileges, Lighter-Than-Air Category—Balloon
Privileges.
Sport Pilot Certificate; Powered Parachute Category—Land Privileges,
Powered Parachute Category—Sea Privileges, Weight-Shift-Control
Aircraft Category—Land Privileges, Weight-Shift-Control Aircraft Category—Sea Privileges.
Flight Instructor Certificate with a Sport Pilot Rating; Powered Parachute Category Privileges, Weight-Shift-Control Aircraft Category
Privileges.
Instrument Rating—Airplane Instrument Proficiency Check—Airplane ...
Instrument Rating—Helicopter Instrument Proficiency Check—Helicopter.
Instrument Rating—Powered-Lift Instrument Proficiency Check—Powered-Lift.
Flight Instructor Certificate; Airplane Category—Single Engine Rating
Airplane Category—Multiengine Rating.
Flight Instructor Certificate; Rotorcraft Category—Helicopter Rating ......
Flight Instructor Certificate; Rotorcraft Category—Gyroplane Rating ......
Flight Instructor Certificate; Powered-lift Category ..................................
Flight Instructor Certificate; Glider Category ............................................
Flight Instructor Certificate; Instrument—Airplane Rating, Instrument—
Helicopter Rating.
Flight Instructor Certificate; Instrument—Powered-Lift Rating .................
Aircraft Type Rating—Airplane .................................................................
Aircraft Type Rating—Helicopter ..............................................................
Aircraft Type Rating—Powered-Lift ..........................................................
Pilot-in-Command Proficiency Check—Airplane ......................................
Pilot-in-Command Proficiency Check—Helicopter ...................................
Pilot-in-Command Proficiency Check—Powered-Lift ...............................
PART 63—CERTIFICATION: FLIGHT
CREWMEMBERS OTHER THAN
PILOTS
10. The authority citation for part 63
continues to read as follows:
■
Authority: 49 U.S.C. 106(f), 106(g), 40113,
44701–44703, 44707, 44709–44711, 45102–
45103, 45301–45302.
ddrumheller on DSK120RN23PROD with RULES2
■
11. Revise § 63.39 to read as follows:
§ 63.39
Skill requirements.
(a) An applicant for a flight engineer
certificate with a class rating must pass
a practical test in the class of airplane
for which a rating is sought. To pass the
practical test for a flight engineer
certificate, the applicant must
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FAA–S–8081–30A, Sport Pilot and Sport Pilot Flight Instructor Rating
Practical Test Standards for Lighter-Than-Air Category, November
2023.
FAA–S–8081–31A, Sport Pilot and Sport Pilot Flight Instructor Rating
Practical Test Standards for Powered Parachute Category and
Weight-Shift-Control Category, November 2023.
FAA–S–ACS–8C, Instrument Rating—Airplane Airman Certification
Standards, November 2023.
FAA–S–ACS–14, Instrument Rating—Helicopter Airman Certification
Standards, November 2023.
FAA–S–ACS–3, Instrument Rating—Powered-Lift Airman Certification
Standards, November 2023.
FAA–S–ACS–25, Flight Instructor for Airplane Category Airman Certification Standards, November 2023.
FAA–S–ACS–29, Flight Instructor for Rotorcraft Category Helicopter
Rating Airman Certification Standards, November 2023.
FAA–S–8081–7C, Flight Instructor Practical Test Standards for Rotorcraft Category Gyroplane Rating, November 2023.
FAA–S–ACS–27, Flight Instructor for Powered-Lift Category Airman
Certification Standards, November 2023.
FAA–S–8081–8C, Flight Instructor Practical Test Standards for Glider
Category, November 2023.
FAA–S–8081–9E, Flight Instructor Instrument Practical Test Standards
for Airplane Rating and Helicopter Rating, November 2023.
FAA–S–ACS–28, Flight Instructor—Instrument Rating Powered-Lift Airman Certification Standards, November 2023.
FAA–S–ACS–11A, Airline Transport Pilot and Type Rating for Airplane
Category Airman Certification Standards, November 2023.
FAA–S–8081–20A, Airline Transport Pilot and Aircraft Type Rating
Practical Test Standards for Rotorcraft Category Helicopter Rating,
November 2023.
FAA–S–ACS–17, Airline Transport Pilot and Type Rating for PoweredLift Category Airman Certification Standards, November 2023.
FAA–S–ACS–11A, Airline Transport Pilot and Type Rating for Airplane
Category Airman Certification Standards; November 2023.
FAA–S–8081–20A, Airline Transport Pilot and Aircraft Type Rating
Practical Test Standards for Rotorcraft Category Helicopter Rating,
November 2023.
FAA–S–ACS–17, Airline Transport Pilot and Type Rating for PoweredLift Category Airman Certification Standards, November 2023.
satisfactorily demonstrate the objectives
in the areas of operation specified in the
Flight Engineer Practical Test Standards
for Reciprocating Engine,
Turbopropeller, and Turbojet Powered
Aircraft (incorporated by reference, see
paragraph (c) of this section). The test
may only be given in an airplane
specified in § 63.37(a).
(b) The applicant must—
(1) Show that the applicant can
satisfactorily perform preflight
inspection, servicing, starting,
pretakeoff, and postlanding procedures;
(2) In flight, show that the applicant
can satisfactorily perform the normal
duties and procedures relating to the
airplane, airplane engines, propellers (if
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22519
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appropriate), systems, and appliances;
and
(3) In flight, in an airplane simulator,
or in an approved flight engineer
training device, show that the applicant
can satisfactorily perform emergency
duties and procedures and recognize
and take appropriate action for
malfunctions of the airplane, engines,
propellers (if appropriate), systems and
appliances.
(c) FAA–S–8081–21A, Flight Engineer
Practical Test Standards for
Reciprocating Engine, Turbopropeller,
and Turbojet Powered Aircraft,
November 2023, is incorporated by
reference into this section with the
approval of the Director of the Federal
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Register under 5 U.S.C. 552(a) and 1
CFR part 51. All approved material is
available for inspection at the Federal
Aviation Administration (FAA) and the
National Archives and Records
Administration (NARA). Contact FAA,
Training and Certification Group, 202–
267–1100, ACSPTSinquiries@faa.gov,
www.faa.gov/training_testing. For
information on the availability of this
material at NARA, visit
www.archives.gov/federal-register/cfr/
ibr-locations or email fr.inspection@
nara.gov. The material may be obtained
from FAA, 800 Independence Avenue
SW, Washington, DC 20591, 866–835–
5322, www.faa.gov/training_testing.
§ 65.59
Skill requirements.
12. The authority citation for part 65
continues to read as follows:
An applicant for an aircraft dispatcher
certificate must pass a practical test
given by the Administrator, with respect
to any one type of large aircraft used in
air carrier operations. To pass the
practical test for an aircraft dispatcher
certificate, the applicant must
satisfactorily demonstrate the objectives
in the areas of operation specified in the
Aircraft Dispatcher Practical Test
Standards (incorporated by reference,
see § 65.23).
■ 15. Amend § 65.115 by revising
paragraphs (a) and (c) to read as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113,
44701–44703, 44707, 44709–44711, 45102–
45103, 45301–45302.
§ 65.115 Senior parachute rigger
certificate: Experience, knowledge, and skill
requirements.
13. Amend § 65.23 by revising the
introductory text and paragraph (a) to
read as follows:
*
PART 65—CERTIFICATION: AIRMEN
OTHER THAN FLIGHT
CREWMEMBERS
■
■
§ 65.23
ddrumheller on DSK120RN23PROD with RULES2
(3) FAA–S–ACS–1, Aviation
Mechanic General, Airframe, and
Powerplant Airman Certification
Standards, November 1, 2021; IBR
approved for §§ 65.75 and 65.79.
*
*
*
*
*
■ 14. Revise § 65.59 to read as follows:
Incorporation by reference.
Certain material is incorporated by
reference into this part with the
approval of the Director of the Federal
Register under 5 U.S.C. 552(a) and 1
CFR part 51. This material is available
for inspection at the Federal Aviation
Administration (FAA) and at the
National Archives and Records
Administration (NARA). Contact FAA,
Certification and Training Group, 202–
267–1100, ACSPTSinquiries@faa.gov.
For information on the availability of
this material at NARA, email
fr.inspection@nara.gov, or go to
www.archives.gov/federal-register/cfr/
ibr-locations. The material may be
obtained from the source in the
following paragraph of this section.
(a) Federal Aviation Administration,
800 Independence Avenue SW,
Washington, DC 20591, 866–835–5322,
www.faa.gov/training_testing.
(1) FAA–S–8081–10E, Aircraft
Dispatcher Practical Test Standards,
November 2023; IBR approved for
§ 65.59.
(2) FAA–S–8081–25C, Parachute
Rigger Practical Test Standards,
November 2023; IBR approved for
§§ 65.115, 65.119, and 65.123.
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*
*
*
*
(a) Present evidence satisfactory to the
Administrator that the applicant has
packed at least 20 parachutes of each
type for which the applicant seeks a
rating, in accordance with the
manufacturer’s instructions and under
the supervision of a certificated
parachute rigger holding a rating for that
type or a person holding an appropriate
military rating;
*
*
*
*
*
(c) Pass an oral and practical test
showing the applicant’s ability to pack
and maintain at least one type of
parachute in common use, appropriate
to the type rating the applicant seeks. To
pass the oral and practical test for a
senior parachute rigger certificate, the
applicant must satisfactorily
demonstrate the objectives in the areas
of operation applicable to a senior
parachute rigger specified in the
Parachute Rigger Practical Test
Standards (incorporated by reference,
see § 65.23), appropriate to the type
rating sought.
■ 16. Amend § 65.119 by revising
paragraphs (a) and (c) to read as follows:
§ 65.119 Master parachute rigger
certificate: Experience, knowledge, and skill
requirements.
*
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*
*
Frm 00040
*
Fmt 4701
*
Sfmt 9990
(a) Present evidence satisfactory to the
Administrator that the applicant has
had at least 3 years of experience as a
parachute rigger and has satisfactorily
packed at least 100 parachutes of each
of two types in common use, in
accordance with the manufacturer’s
instructions—
*
*
*
*
*
(c) Pass an oral and practical test
showing the applicant’s ability to pack
and maintain two types of parachutes in
common use, appropriate to the type
ratings the applicant seeks. To pass the
oral and practical test for a master
parachute rigger certificate, the
applicant must satisfactorily
demonstrate the objectives in the areas
of operation applicable to a master
parachute rigger specified in the
Parachute Rigger Practical Test
Standards (incorporated by reference,
see § 65.23), as appropriate to the type
rating sought.
■ 17. Revise § 65.123 to read as follows:
§ 65.123 Additional type ratings:
Requirements.
A certificated parachute rigger who
applies for an additional type rating
must—
(a) Present evidence satisfactory to the
Administrator that the applicant has
packed at least 20 parachutes of the type
for which the applicant seeks a rating,
in accordance with the manufacturer’s
instructions and under the supervision
of a certificated parachute rigger holding
a rating for that type or a person holding
an appropriate military rating; and
(b) Pass a practical test, to the
satisfaction of the Administrator,
showing the applicant’s ability to pack
and maintain the type of parachute,
appropriate to the type rating sought. To
pass the practical test for an additional
type rating, the applicant must
satisfactorily demonstrate the objectives
in the area of operation specified in the
Parachute Rigger Practical Test
Standards (incorporated by reference,
see § 65.23), applicable to the type
rating sought.
Issued under authority provided by 49
U.S.C. 106(f), 40113, 44701, 44702, and
44703 in Washington, DC.
Michael Gordon Whitaker,
Administrator.
[FR Doc. 2024–06644 Filed 3–29–24; 8:45 am]
BILLING CODE 4910–13–P
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]]>Agencies
[Federal Register Volume 89, Number 63 (Monday, April 1, 2024)]
[Rules and Regulations]
[Pages 22482-22520]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2024-06644]
[[Page 22481]]
Vol. 89
Monday,
No. 63
April 1, 2024
Part II
Department of Transportation
-----------------------------------------------------------------------
Federal Aviation Administration
-----------------------------------------------------------------------
14 CFR Parts 61, 63, and 65
Airman Certification Standards and Practical Test Standards for Airmen;
Incorporation by Reference; Final Rule
��Federal Register / Vol. 89 , No. 63 / Monday, April 1, 2024 / Rules
and Regulations��
[[Page 22482]]
-----------------------------------------------------------------------
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Parts 61, 63, and 65
[Docket No. FAA-2022-1463; Amdt. Nos. 61-153, 63-46, and 65-64]
RIN 2120-AL74
Airman Certification Standards and Practical Test Standards for
Airmen; Incorporation by Reference
AGENCY: Federal Aviation Administration (FAA), Department of
Transportation (DOT).
ACTION: Final rule.
-----------------------------------------------------------------------
SUMMARY: This final rule revises certain regulations governing airman
certification. Specifically, the FAA Airman Certification Standards and
Practical Test Standards comprise the testing standard for practical
tests and proficiency checks for persons seeking or holding an airman
certificate and/or rating. This rule incorporates these Airman
Certification Standards and Practical Test Standards by reference into
the certification requirements for pilots, flight instructors, flight
engineers, aircraft dispatchers, and parachute riggers.
DATES: This final rule is effective on May 31, 2024.
The incorporation by reference of certain publications listed in
this final rule is approved by the Director of the Federal Register as
of May 31, 2024.
ADDRESSES: For information on where to obtain copies of rulemaking
documents and other information related to this final rule, see ``How
to Obtain Additional Information'' in the SUPPLEMENTARY INFORMATION
section of this document.
FOR FURTHER INFORMATION CONTACT: James Ciccone, Training and
Certification Group, AFS-810, Federal Aviation Administration, 800
Independence Avenue SW, Washington, DC 20591; telephone (202) 267-1100;
email faa.gov">ACSPTSinquiries@faa.gov.
SUPPLEMENTARY INFORMATION:
List of Abbreviations and Acronyms Frequently Used in This Document
Administrative Procedure Act (APA)
Aeronautical Information Manual (AIM)
Airman Certification Standards (ACS)
Airline Transport Pilot (ATP)
Area of Operation (AOO)
Aviation Rulemaking Advisory Committee ACS Working Group (ARAC ACS
WG)
Instrument Proficiency Check (IPC)
Instrument Flight Rules (IFR)
Incorporation by Reference (IBR)
Pilot-in-Command Proficiency Check (PIC PC)
Practical Test Standards (PTS)
Vertical Takeoff and Landing (VTOL)
Visual Flight Rules (VFR)
Table of Contents
I. Executive Summary
II. Authority for This Rulemaking
III. Background
A. Regulatory History and Incorporation by Reference
B. Summary of NPRM
C. General Overview of Comments
IV. Discussion of the Final Rule and Comments
A. Amendments to 14 CFR Parts 61, 63, and 65
1. Comments Concerning IBR
2. Final Rule Amendments
B. Discussion of Comments Related to the ACS and PTS
1. Broad ACS Comments
2. Specific ACS Comments
3. Universally Applicable Comments
C. ACS Testing Codes
D. Record of Changes
E. Out of Scope
V. Regulatory Notices and Analyses
A. Regulatory Evaluation
1. Baseline for the Analysis
2. Benefits
3. Costs
4. Regulatory Alternatives
B. Regulatory Flexibility Act
C. International Trade Impact Assessment
D. Unfunded Mandates Assessment
E. Paperwork Reduction Act
F. International Compatibility
G. Environmental Analysis
VI. Executive Order Determinations
A. Executive Order 13132, Federalism
B. Executive Order 13175, Consultation and Coordination With
Indian Tribal Governments
C. Executive Order 13211, Regulations That Significantly Affect
Energy Supply, Distribution, or Use
D. Executive Order 13609, Promoting International Regulatory
Cooperation
VII. Additional Information
A. Electronic Access and Filing
B. Small Business Regulatory Enforcement Fairness Act
I. Executive Summary
This final rule adopts several amendments to parts 61, 63, and 65
of Title 14 of the Code of Federal Regulations (14 CFR) by
incorporating by reference (IBR) the Airman Certification Standards
(ACS) and Practical Test Standards (PTS). The ACS and PTS \1\ serve as
the testing standards for airman certificates and rating practical
tests. The FAA notes that, while certain revisions were made to the ACS
and PTS as an outgrowth of public notice and comment, there are no
major substantive changes to the testing standards already in use or
the conduct of the practical test such that the scope of the practical
test is altered. Rather, this final rule brings the ACS and PTS into
the FAA regulations through the proper notice and comment process
required by the Administrative Procedure Act (APA).\2\
---------------------------------------------------------------------------
\1\ ACS and PTS refers to both the singular Standard and the
plural Standards throughout the document.
\2\ 5 U.S.C. 551-559.
---------------------------------------------------------------------------
As it pertains to pilots and flight instructors, the FAA
incorporates thirty (30) pilot and flight instructor ACS and PTS in
part 61 by reference through a centralized IBR section in new Sec.
61.14. The FAA directs compliance on the respective practical tests and
proficiency checks with the appropriate ACS and PTS through revisions
in Sec. Sec. 61.43, 61.57, 61.58, 61.321, and 61.419. Additionally,
the final rule adds an appendix to part 61, which sets forth which ACS
or PTS applies to a certificate and/or rating sought or proficiency
check.
This final rule also makes a non-substantive conforming amendment
to Sec. 61.157 to align the Airline Transport Pilot (ATP) airplane and
powered-lift flight proficiency areas of operation with the areas of
operation contained in the ATP and Type Rating for Airplane Category
ACS and ATP and Type Rating for Powered-Lift Category ACS,
respectively. The FAA also revised ``must consist of'' in Sec.
61.57(d) to ``must include'' to align with the definitions in Sec.
1.3. The remaining changes were made to the ACS or PTS documents as a
result of public comments.
Further, this final rule revises certain provisions applicable to
flight engineers in part 63 and aircraft dispatchers and parachute
riggers in part 65. First, this final rule incorporates the Flight
Engineer PTS by reference in Sec. 63.39. Additionally, this final rule
adds the Aircraft Dispatcher PTS and Parachute Rigger PTS to Sec.
65.23, the existing centralized IBR section for part 65, and removes
the now inapplicable Aviation Mechanic PTS from the centralized
section. The final rule also revises the appropriate sections in
subparts C and F of part 65 (i.e., Sec. Sec. 65.59, 65.115, 65.119,
65.123) to require compliance with the respective PTS. Finally, minor
editorial revisions remove gender references in both parts.
II. Authority for This Rulemaking
The FAA's authority to issue rules regarding aviation safety is
found in title 49 of the United States Code (U.S.C.). Subtitle I,
section 106, describes the authority of the FAA Administrator to
promulgate regulations and rules. Subtitle VII, Aviation Programs,
describes in more detail the scope of the agency's authority.
[[Page 22483]]
This rulemaking is promulgated under the authority granted to the
Administrator in 49 U.S.C. subtitle VII, part A, subpart iii, chapter
401, Section 40113 (prescribing general authority of the Administrator
of the FAA with respect to aviation safety duties and powers to
prescribe regulations) and subpart III, chapter 447, sections 44701
(general authority of the Administrator to promote safe flight of civil
aircraft in air commerce by prescribing regulations and setting minimum
standards for other practices, methods, and procedures necessary for
safety in air commerce and national security), 44702 (general authority
of the Administrator to issue airman certificates), and 44703 (general
authority of the Administrator to prescribe regulations for the
issuance of airman certificates when the Administrator finds, after
investigation, that an individual is qualified for and physically able
to perform the duties related to the position authorized by the
certificate). This rulemaking is within the scope of that authority.
III. Background
A. Regulatory History and Incorporation by Reference
Under 49 U.S.C. 44703, the Administrator of the FAA possesses the
authority to issue airman certificates when the Administrator finds,
after investigation, that an individual is qualified for and able to
perform the duties related to the position authorized by the
certificate.\3\ The Administrator carries out this investigative
authority through 14 CFR parts 61, 63, and 65, which prescribe the
requirements for airmen to obtain a certificate and a rating.\4\ Each
respective part contains the general requirements for eligibility,
which include aeronautical knowledge, flight proficiency, and
aeronautical experience, as applicable, for each certificate and/or
rating sought. This generally includes the requirement to pass a
practical test \5\ specific to the certificate and/or rating sought.\6\
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\3\ By statute, a person may not serve in any capacity as an
airman with respect to a civil aircraft, aircraft engine, propeller,
or appliance used, or intended for use, in air commerce without an
airman certificate authorizing the airman to serve in the capacity
for which the certificate was issued. 49 U.S.C. 44711. Title 49
U.S.C. 40102 sets forth the definition and the duties of an airman.
\4\ Part 61 prescribes certification requirements for pilots,
flight instructors, and ground instructors; part 63 prescribes
certification requirements for flight crewmembers other than pilots;
part 65 prescribes certification requirements for airmen other than
flight crewmembers.
\5\ A practical test is a test on the areas of operations for an
airman certificate, rating, or authorization that is conducted by
having the applicant respond to questions and demonstrate maneuvers
in flight, in a flight simulator, or in a flight training device,
pursuant to 14 CFR 61.1. Practical tests are administered by FAA
inspectors or private persons designated by the Administrator. See
49 U.S.C. 44702(d).
\6\ Certain certificates do not require the successful
completion of a practical test to obtain the certificate. For
example, a certificate based on military competency requires only a
military competency aeronautical knowledge test, pursuant to Sec.
61.73(b); similarly, a ground instructor certificate requires only a
knowledge test on fundamentals of instructing and certain
aeronautical knowledge areas, pursuant to Sec. 61.213.
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The FAA has long set forth certain items for inclusion on the
practical test. Prior to 1997,\7\ these items were included directly in
the regulations of part 61 through flight proficiency requirements,
resulting in an unclear, broad, and discretionary testing framework.\8\
After 1997, the FAA set forth the flight proficiency requirements for
flight training and practical tests with approved areas of operation,
more general in character than the flight proficiency procedures and
maneuvers, and simplified the practical test general procedures
regulations to require performance of the areas of operation.\9\
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\7\ Prior to 1997, the FAA referred to ``practical tests'' as
both ``practical test'' and ``flight test.''
\8\ For a comprehensive history of this testing framework, see
Airman Certification Standards and Practical Test Standards for
Airmen; Incorporation by Reference notice of proposed rulemaking, 87
FR 75955 (Dec. 12, 2022).
\9\ Pilot, Flight Instructor, Ground Instructor, and Pilot
School Certification Rules final rule, 62 FR 16220 (Apr. 4, 1997).
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To implement testing on the areas of operation, the FAA established
the Practical Test Standards (PTS) to define acceptable performance of
the flight proficiency required to obtain a certificate and/or rating.
The PTS applied to specific certificates and/or ratings sought and
incorporated the areas of operation set forth in the applicable
regulations,\10\ some of which continue to be used as the current
testing standard. Within the PTS, the areas of operation were
designated as phases of the practical test, which were further
extrapolated into tasks comprised of knowledge areas, flight
procedures, or maneuvers appropriate to the overarching area of
operation. An evaluator \11\ is responsible for determining whether the
applicant meets the standards outlined in the objective of each
required task evaluated in accordance with the respective PTS. While
developed primarily in response to part 61 revisions, the FAA also
published and utilized PTS for testing under parts 63 and 65.\12\
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\10\ As an example, the FAA published a PTS for the Commercial
Pilot--Rotorcraft Category, Helicopter and Gyroplane Class. Within
the PTS, the areas of operation correspond with the areas of
operation set forth in 14 CFR 61.127(b)(3) and (4), flight
proficiency areas of operation for rotorcraft category rating with a
helicopter class rating and rotorcraft category rating with a
gyroplane class rating, respectively.
\11\ As it applies to the particular evaluation, an evaluator is
considered: an aviation safety inspector; pilot examiner (other than
administrative pilot examiners); training center evaluator (TCE);
chief instructor, assistant chief instructor, or check instructor of
a pilot school holding examining authority; an instrument flight
instructor conducting an instrument proficiency check; or an
authorized sport pilot instructor.
\12\ Specifically, the FAA developed PTS for Flight Engineers in
part 63 and Aircraft Dispatchers, Mechanic Technicians, and
Parachute Riggers in part 65. Because these regulations do not
specifically set out the areas of operation in the same manner as
part 61, respective sections of this preamble further describe these
PTS.
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In 2011, the FAA began establishing the ACS to enhance the testing
standard for the knowledge and practical tests.\13\ In cooperation with
the ACS Working Group (ARAC ACS WG), established through the Aviation
Rulemaking Advisory Committee (ARAC),\14\ the FAA integrated
``aeronautical knowledge'' and ``risk management'' elements into the
existing areas of operations and tasks set forth in the PTS. Therefore,
the ACS is a comprehensive presentation integrating the standards for
what an applicant must know, consider, and do to demonstrate
proficiency to pass the tests required for issuance of the applicable
airman certificate or rating.
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\13\ The ACS were intended to implement a new, systematic
approach to testing that would (1) provide clearer standards, (2)
consolidate redundant tasks, and (3) connect the standards for
knowledge, risk management, and skills to the knowledge and
practical tests.
\14\ The Federal Advisory Committee Act, 5 U.S.C. app. 2,
provides authority for the ARAC. The ARAC ACS WG includes the FAA,
advocacy groups, instructor groups, training providers, academic
institutions, and labor organizations.
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Given this transition, in 2018,\15\ the FAA removed the reference
to the practical test standards in Sec. 61.43 and broadened the
regulatory language to encompass the standards set forth in the ACS,
where applicable (i.e., where ACS were developed and actively utilized
for practical tests of certain certificates). The regulatory language
adopted in 2018 that required applicants to perform the tasks specified
in the areas of operation for the airman certificate or rating sought
is how the regulation is situated prior to this final rule. The FAA
notes that some PTS have fully transitioned to ACS, rendering those
[[Page 22484]]
corresponding PTS obsolete.\16\ While FAA continues to actively convert
the remaining PTS to ACS in collaboration with the ARAC ACS WG, FAA
will continue to use the PTS for some certificates and ratings pending
development of the corresponding ACS, followed by further rulemaking.
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\15\ Regulatory Relief: Aviation Training Devices; Pilot
Certification, Training, and Pilot Schools; and Other Provisions
final rule, 83 FR 30232 (Jun. 27, 2018).
\16\ The FAA notes that it received one comment on the NPRM to
this final rule contending that utilization of the ACS has increased
the accident rate overall, encouraging a transition back to the PTS.
However, the commenter did not provide any data, nor has the FAA
identified any correlation between accidents and the ACS. The FAA
intends to continue moving forward with the ACS framework as the
testing standard for the foreseeable future.
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While FAA did not originally consider the content of the ACS and
PTS to contain regulatory requirements, as stated in the 2018 final
rule,\17\ use of the ACS and PTS by the FAA impose requirements on all
persons seeking an airman certificate or rating in parts 61, 63, and
65. As previously discussed, the ACS and PTS require an applicant
seeking a certificate or rating to complete specific tasks and
maneuvers to a minimum prescribed standard to obtain the applicable
certificate or rating.\18\ As such, if an applicant does not perform a
task to the standard in the applicable ACS or PTS, the applicant cannot
obtain the applicable certificate and rating. Unsatisfactory
performance results in a notice of disapproval and/or denial of the
certificate or rating.
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\17\ 83 FR at 30269.
\18\ The FAA directs examiners to conduct practical tests in
accordance with the appropriate ACS or PTS pursuant to FAA Order
8900.1, Vol. 5, Chap. 1, Sec. 4. The appropriate volume, chapter,
and section pursuant to the applicable certificate or rating sought
found in FAA Order 8900.1 provides additional direction (e.g., Vol.
1, Chap. 2, Sec. 7, Conduct a Private Pilot Certification, Including
Additional Category/Class Ratings, directs an examiner to conduct
the practical test in accordance with the private pilot PTS in
paragraph 5-382).
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Because of the regulatory nature and purpose of the ACS and PTS,
this final rule will IBR the ACS and PTS into parts 61, 63, and 65 so
that the standards carry the full force and effect of regulation. Due
to the unique nature of the ACS and PTS documents, which are lengthy
and contain complex technical tables, the FAA finds it more appropriate
to incorporate these standards by reference than to reproduce the
documents in their entirety into the Code of Federal Regulations (CFR),
as subsequently discussed in this preamble.
IBR is a mechanism that allows Federal agencies to comply with the
requirements of the APA to publish rules in the Federal Register and
the CFR by referring to material published elsewhere.\19\ Material that
is incorporated by reference has the same legal status as if it were
published in full in the CFR and Federal Register.
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\19\ 5 U.S.C. 552(a).
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In accordance with 5 U.S.C. 552(a) and 1 CFR part 51,\20\ the FAA
makes the ACS and PTS reasonably available to interested parties by
providing free online public access to view on the FAA Training and
Testing website at www.faa.gov/training_testing. The ACS and PTS are
available for download, free of charge, at the provided web address.
The FAA will continue to provide the ACS and PTS to interested parties
in this manner. For a complete list and discussion of the ACS and PTS
incorporated by reference in parts 61, 63, and 65, see section IV.A.2.
of this preamble.
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\20\ 5 U.S.C. 552(a) requires that matter incorporated by
reference be ``reasonably available'' as a condition of its
eligibility. Further, 1 CFR 51.5(b)(2) requires that agencies
incorporating material by reference discuss in the preamble of the
final rule the ways that the material it incorporates by reference
is reasonably available to interested parties and how interested
parties can obtain the material.
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B. Summary of NPRM
On December 12, 2022, the FAA published a notice of proposed
rulemaking (NPRM) titled ``Airman Certification Standards and Practical
Test Standards for Airmen; Incorporation by Reference.'' \21\ In the
NPRM, the FAA proposed several amendments to parts 61, 63, and 65 that
would IBR the ACS and PTS into the certification requirements for
pilots, flight instructors, flight engineers, aircraft dispatchers, and
parachute riggers. The rulemaking docket \22\ contained all ACS and PTS
proposed to be incorporated by reference for public inspection.
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\21\ 87 FR 75955.
\22\ Docket No. FAA-2022-1463.
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C. General Overview of Comments
The NPRM provided a 30-day comment period, extended by an
additional 30 days,\23\ which ended on February 10, 2023. The FAA
received comments from 39 individuals and organizations. The majority
of comments came from individuals. Several industry advocacy
organizations also submitted comments. Many comments pertained to more
than one issue, such as specific revisions to narrow elements and tasks
within the PTS and ACS, suggestions considered out of scope, legal
issues, and administrative matters. In addition, the majority of
comments received pertained to the content of the ACS and PTS documents
rather than the proposed amendments to parts 61, 63, and 65.
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\23\ Extension of Comment Period, Airman Certification Standards
and Practical Test Standards for Airmen; Incorporation by Reference,
88 FR 24 (Jan. 3, 2023).
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IV. Discussion of the Final Rule and Comments
A. Amendments to 14 CFR Parts 61, 63, and 65
In the NPRM, the FAA proposed to amend parts 61, 63, and 65 to IBR
the ACS and PTS. The FAA received several general comments opposed to
this rulemaking, as discussed in the subsequent section. However, the
FAA did not receive any comments suggesting alternatives to the
mechanism of IBR or to the regulatory language in the proposed rule.
The FAA adopts the regulatory text as proposed with various revisions
to the ACS and PTS themselves, as discussed in the subsequent sections
of this preamble. The following table lists the amendments made to the
FAA regulations by this final rule and a summary of those provisions.
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\24\ See section IV.A.2.i. of this preamble for a list of the
ACS and PTS that will be incorporated by reference in new Sec.
61.14.
Table 1--Amendments to FAA Regulations
----------------------------------------------------------------------------------------------------------------
14 CFR Sec. affected Summary of provision
----------------------------------------------------------------------------------------------------------------
61.14.............................................. Create a centralized IBR section to IBR 30 ACS and PTS in
part 61.\24\
61.43(a)(1)........................................ Revise to require completion of the practical test for a
certificate or rating to consist of performing the tasks
specified in the areas of operation in the applicable ACS
or PTS for the airman certificate or rating sought.
61.57(d)(1)........................................ Revise to state that the instrument proficiency check (IPC)
must consist of the areas of operation contained in the
applicable ACS as appropriate to the rating held.
61.58(d)(1)........................................ Revise to require that the PIC proficiency check
specifically consists of the areas of operation contained
in the applicable ACS or PTS.
[[Page 22485]]
61.157(e).......................................... Revise areas of operation to align with the areas of
operation in the ACS.
61.321(b).......................................... Revise to require the proficiency check for an additional
light-sport aircraft privilege to consist of the
appropriate areas of operation contained in the applicable
PTS.
61.419(b).......................................... Revise to require the flight instructor to successfully
complete a proficiency check consisting of the appropriate
areas of operation contained in the applicable PTS for the
additional category and class flight instructor privilege
sought.
Appendix A to part 61.............................. Add appendix A to aid applicants and evaluators in
identifying which ACS or PTS they must utilize for the
certificate and/or rating sought or proficiency check to
administer.
63.39.............................................. Revise to IBR the Flight Engineer PTS and require an
applicant for a flight engineer certificate to
satisfactorily demonstrate the objectives in the areas of
operation contained in the Flight Engineer PTS.
65.23(a)(1) and (2)................................ Revise the centralized IBR section in part 65 to include
the Aircraft Dispatcher PTS and Parachute Rigger PTS.
65.59.............................................. Revise to require an aircraft dispatcher to satisfactorily
demonstrate the objectives in the areas of operation
specified in the Aircraft Dispatcher PTS.
65.115 and 65.119.................................. Revise to require applicant to pass the oral and practical
test by satisfactorily demonstrating the objectives in the
areas of operation in the Parachute Rigger PTS applicable
as appropriate to the respective certificate (e.g., senior
parachute rigger, master parachute rigger) and type rating
sought.
65.123(b).......................................... Revise to require an applicant seeking an additional type
rating to satisfactorily demonstrate the objectives in the
area of operation applicable to the type rating sought, as
specified in the Parachute Rigger PTS.
----------------------------------------------------------------------------------------------------------------
1. Comments Concerning IBR
The FAA received a number of comments on the mechanism of IBR
itself. These comments included enforcement questions, concerns about
the FAA's justification for IBR, and apprehension with the timeliness
and flexibility of the process. This section responds to concerns about
IBR and provides additional explanation on IBR as set forth by the APA.
First, the FAA received several comments regarding the effects of
this rulemaking on enforcement. Two individuals and the National
Association of Flight Instructors (NAFI) expressed concern that
incorporating the ACS and PTS by reference may subject an applicant who
fails a task or receives an unsatisfactory on a practical test or that
applicant's instructor to an enforcement action. Additionally, NAFI
expressed concern that the regulatory nature of the ACS and PTS would
leave flight instructors who provide an endorsement that an applicant
has received and logged the appropriate training and is prepared for
the practical test \25\ vulnerable to an enforcement action should the
applicant fail the practical test. Further, one commenter surmised that
the regulatory nature of the ACS and PTS would result in a violated
regulation when a designated pilot examiner improperly fails an
applicant, resulting in an enforcement or higher legal action.
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\25\ See 14 CFR 61.39(a)(6).
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The Administrator does not currently bring enforcement actions
against those persons who fail practical tests, and this final rule
does not change such practice. Section 61.43, as amended by this rule,
sets forth the general procedures for the practical test and defines
successful completion of a practical test in terms of the tasks
specified in the Areas of Operation contained in the applicable ACS or
PTS. Similarly, Sec. Sec. 61.57, 61.58, 61.321, and 61.419 set forth
the requirements for the completion of certain proficiency checks
(i.e., completion of the areas of operation contained in the applicable
ACS or PTS). The FAA regards these completion requirements as
eligibility standards that allow an applicant to receive a certificate
and/or rating (or obtain an endorsement for the privileges associated
with completion of a proficiency check). Therefore, the only
consequence for not successfully completing a specific task within an
ACS or PTS as incorporated by reference would be ineligibility for a
certificate and/or rating sought (or privileges accompanying a
proficiency check). The applicant would simply not receive the
certificate, rating, or privileges and would not be subject to an
enforcement action only on the basis of unsatisfactory performance of
the test or check.
The FAA further emphasizes that, for the same reasons, the
regulatory nature of the ACS and PTS would not affect the
responsibilities of a flight instructor who endorses an applicant for
purposes of the practical test and that applicant later fails the
practical test. Specifically, the FAA recognizes that an applicant
could fail a practical test for many reasons that may not necessarily
reflect upon the flight instructor, including stress, misunderstanding,
or human error. However, the FAA has the authority to take appropriate
action, including reexamining or reinspecting a certificate holder, to
resolve questions as to the holder's ongoing competence or
qualification to hold a certificate.\26\
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\26\ See 49 U.S.C. 44709.
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Second, one commenter presented opposition to the incorporation by
reference and believed the ACS and PTS documents should never carry the
full force and effect of regulation. The commenter's reason is that
ACS/PTS is vague, which is by design because it is a framework. The
ACS/PTS is built to be adaptive to situations and scenarios and to
evolve with the industry. Additionally, the commenter stated that the
ACS and PTS are designed to allow for an evaluator's judgment,
individualism, interpretations, and conclusions.
The FAA agrees that the ACS and PTS documents are meant to be
adaptive and each practical test is to be tailored to the applicant
based on the identified deficiencies of the knowledge test. However,
the ACS contain tasks that must be performed to demonstrate an
individual has met the standard of proficiency required to obtain an
airman certificate or rating. As such, the ACS are regulatory, and IBR
is the appropriate process to make them so.
In addition, commenters took issue with the general proposal to IBR
the PTS and ACS documents, stating that there is a lack of sufficient
justification for incorporating these documents by reference. The FAA
holds the legal authority to utilize the mechanism of IBR as afforded
by the APA. As previously discussed, under 49 U.S.C. 44703, the
Administrator of the FAA possesses the authority to issue airman
certificates when the Administrator finds after investigation that an
individual is qualified for and able to perform the duties related to
the
[[Page 22486]]
position authorized by the certificate. The Administrator carries out
this authority through 14 CFR parts 61, 63, and 65, which prescribe the
requirements for airmen to obtain a certificate and/or rating. The
Administrator ensures that an airman possesses the requisite knowledge
and skill to obtain a certificate and/or rating through demonstration
of tasks consisting of knowledge, risk management, and skill elements
as set forth in the applicable ACS and PTS.
A rule \27\ that has the force and effect of law (i.e., one that
imposes duties or obligations on regulated parties) constitutes a
legislative rule that must be adopted in accordance with the notice and
comment requirements of the Administrative Procedure Act (APA).\28\ The
tasks in the ACS and PTS are legislative rules because an individual
must accomplish them to obtain an airman certificate. As such, under
the APA, the regulated community must receive notice and the
opportunity to comment on the standards. The FAA determined that IBR
presents the most appropriate mechanism by which to bring the ACS and
PTS into the regulations.\29\ The 33 total ACS and PTS that accompanied
the NPRM in the docket consist of many pages and include tables, notes,
references, appendices, and technical material. Converting these
standards into a format acceptable to print directly in the CFR would,
first, draw upon considerable agency resources, second, result in a
brand new presentation of material that could present usability
challenges for the agency and regulated community, and, third,
substantially increase the volume of material published in the Federal
Register and CFR.\30\ Therefore, the FAA adopts the 33 ACS and PTS
through incorporation by reference, as proposed, and maintains that,
for the reasons discussed, sufficient support exists for this
rulemaking.
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\27\ As defined in 5 U.S.C. 551, a ``rule'' is ``the whole or a
part of an agency statement of general or particular applicability
and future effect designed to implement, interpret, or prescribe law
or policy or describing the organization, procedure, or practice
requirements of an agency[.]''
\28\ 5 U.S.C. 552(A), which states, ``except to the extent that
a person has actual or timely notice of the terms thereof, a person
may not in any manner be required to resort to, or be adversely
affected by, a matter required to be published in the Federal
Register and not so published.
\29\ For the purpose 5 U.S.C. 552(a), matter reasonably
available to the class of persons affected thereby is deemed
published in the Federal Register when incorporated by reference
therein with the approval of the Director of the Federal Register.''
\30\ The FAA notes that 1 CFR 51.7 states that an assumption
exists that a publication produced by the same agency that is
seeking its approval is inappropriate for incorporation by
reference. However, the ACS and PTS overcame this assumption under
the standards set forth in 1 CFR 51.7(b) due to the unique qualities
described here.
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Some commenters claimed that the process for changing the ACS and
PTS documents must be faster and more flexible than the rulemaking
process will allow due to technological developments and innovative
aviation advancements. Commenters, particularly powered-lift
manufacturers and planned commercial operators, emphasized the need to
nimbly update the ACS and PTS in a timely manner and suggested the
publication of clear revision cycles, review and revision timelines,
and standing RINs.\31\
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\31\ A Regulation Identifier Number (RIN) is assigned to each
regulatory action listed in the Unified Agenda of Regulatory and
Deregulatory Actions.
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The FAA acknowledges industry's concerns that the rulemaking
process will prevent quick updates to the ACS and PTS.\32\ Rulemaking
will be required to revise any document incorporated by reference into
the CFR. As the ACS and PTS contain requirements for obtaining an
airman certificate or rating, rulemaking will prevent the agency from
imposing new requirements on a regulated entity by mandating a new
version of a document without adhering to the APA (i.e., by not
providing notice of the changes and an opportunity for comment).
Essentially, because of the regulatory status of ACS and PTS, should
the FAA want to add a task or element to an ACS or PTS, the regulated
community would be given notice, have the opportunity to provide input
on the addition, and have time to prepare accordingly for the change
before effectivity. Given the technical nature of the ACS and PTS, the
FAA intends to explore an expedited method for making required updates
through the rulemaking process similar to the process used for airspace
actions. For updates that are administrative in nature, the FAA may use
direct final rules or interim final rules to make those types of non-
substantive changes.\33\
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\32\ The FAA notes that it is unaware of any updates that were
immediately required to respond to a safety concern or new
technology. If the FAA determines that safety requires immediate
action, the FAA will take the necessary steps within all available
means to address that concern.
\33\ See ACUS Recommendation 95.4, Jun. 15, 1995; ACUS
Recommendation 2011-5, Dec. 8, 2011; and OMB Circular A-119, Jan.
27, 2016.
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2. Final Rule Amendments
The FAA's regulatory amendments to parts 61, 63, and 65 remain
unchanged from the proposal.
i. Airman Certification Standards and Practical Test Standards
Incorporated by Reference Into Part 61
Title 14 CFR part 61 sets forth the certification requirements for
pilots and flight instructors. As previously stated, new centralized
IBR Sec. 61.14 lists the ACS and PTS incorporated by reference into
part 61 pertaining to pilots and flight instructors. This section
summarizes 15 ACS and 15 PTS \34\ that require applicants to perform
the tasks specified in the areas of operation for the airman
certificate and/or rating sought, as applicable.\35\ As noted
previously, the FAA makes the ACS and PTS reasonably available for
interested parties to view by providing free online public access to
the FAA Training and Testing website at www.faa.gov/training_testing.
Interested parties can also download the ACS and PTS free of charge at
the provided web address. Additionally, the FAA developed an ACS
companion guide for pilots providing guidance on certain non-regulatory
and technical information previously published in the ACS.
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\34\ The FAA added dates to the regulatory text for version and
document identification. This date, November 2023, provides a
specific identification month for the PTS and ACS.
\35\ In accordance with 1 CFR 51.5(b)(3), an agency must
summarize the material it incorporates by reference in the preamble
of the final rule. Sections IV.A.2.ii. and iii. of this preamble
summarize the material incorporated by reference in 14 CFR parts 63
and 65.
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Airman Certification Standards:
FAA-S-ACS-2, Commercial Pilot for Powered-Lift Category
Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for commercial pilot
certification in the powered-lift category.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs, Landings, and Go-Arounds; Performance
Maneuvers; Navigation; Slow Flight and Stalls; Emergency Operations;
High-Altitude Operations; Special Operations; and Postflight
Procedures.
FAA-S-ACS-3, Instrument Rating--Powered-Lift Airman
Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for private pilot
certification in the instrument rating in the powered-lift category.
[[Page 22487]]
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Air Traffic Control (ATC) Clearances
and Procedures; Flight by Reference to Instruments; Navigation Systems;
Instrument Approach Procedures; Emergency Operations; and Postflight
Procedures.
FAA-S-ACS-6C, Private Pilot for Airplane Category Airman
Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the private pilot
certification in airplane category, single-engine land and sea, and
multiengine land and sea classes.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Seaplane Base
Operations; Takeoffs, Landings, and Go-Arounds; Performance Maneuvers
and Ground Reference Maneuvers; Navigation; Slow Flight and Stalls;
Basic Instrument Maneuvers; Emergency Operations; Multiengine
Operations; Night Operations; and Postflight Procedures.
FAA-S-ACS-7B, Commercial Pilot for Airplane Category
Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the commercial rating
in the airplane category, single-engine land and sea, and multiengine
land and sea classes.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Seaplane Base
Operations; Takeoffs, Landings, and Go-Arounds; Performance Maneuvers
and Ground Reference Maneuvers; Navigation; Slow Flight and Stalls;
High-Altitude Operations; Emergency Operations; Multiengine Operations;
and Postflight Procedures.
FAA-S-ACS-8C, Instrument Rating--Airplane Airman
Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for private pilot
certification in the instrument rating in the airplane category.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Air Traffic Control (ATC) Clearances
and Procedures; Flight by Reference to Instruments; Navigation Systems;
Instrument Approach Procedures; Emergency Operations; and Postflight
Procedures.
FAA-S-ACS-11A, Airline Transport Pilot and Type Rating for
Airplane Category Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for airline transport
pilot and type rating certification in the airplane category.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Takeoffs and Landings; In-flight
Maneuvers; Stall Prevention; Instrument Procedures; Emergency
Operations; and Postflight Procedures.
FAA-S-ACS-13, Private Pilot for Powered-Lift Category
Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for private pilot
certification in the powered-lift category.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs, Landings, and Go-Arounds; Performance
Maneuvers; Ground Reference Maneuvers; Navigation; Slow Flight and
Stalls; Basic Instrument Maneuvers; Emergency Operations; Night
Operations; and Postflight Procedures.
FAA-S-ACS-14, Instrument Rating--Helicopter Airman
Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the instrument rating
helicopter.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Air Traffic Control (ATC) Clearances
and Procedures; Flight by Reference to Instruments; Navigation Systems;
Instrument Approach Procedures; Emergency Operations; and Postflight
Procedures.
FAA-S-ACS-15, Private Pilot for Rotorcraft Category
Helicopter Rating Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for private pilot
certification in the rotorcraft category helicopter rating.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs, Landings, and Go-Arounds; Performance
Maneuvers; Navigation; Emergency Operations; Night Operations; and
Postflight Procedures.
FAA-S-ACS-16, Commercial Pilot for Rotorcraft Category
Helicopter Rating Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for a commercial pilot
certification in the rotorcraft category helicopter rating.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Heliport Operations;
Hovering Maneuvers; Takeoffs, Landings, and Go-Arounds; Performance
Maneuvers; Navigation; Emergency Operations; Special Operations; and
Postflight Procedures.
FAA-S-ACS-17, Airline Transport Pilot and Type Rating for
Powered-Lift Category Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for airline transport
pilot and type rating certification in the powered-lift category.
[cir] This ACS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Takeoffs and Departure Phase; In-
flight Maneuvers; Instrument Procedures; Landings and Approaches to
Landings; Emergency Operations; and Postflight Procedures.
FAA-S-ACS-25, Flight Instructor for Airplane Category
Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the flight instructor
certificate in the airplane category.
[cir] This ACS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Preflight Procedures; Airport and Seaplane Base Operations; Takeoffs,
Landings, and Go-Arounds; Fundamentals of Flight; Performance and
Ground Maneuvers, Slow Flight, Stalls, and Spins; Basic Instrument
Maneuvers; Emergency Operations; Multiengine Operations; and Postflight
Procedures.
FAA-S-ACS-27, Flight Instructor for Powered-Lift Category
Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency
[[Page 22488]]
standards for the flight instructor certificate in the powered-lift
category.
[cir] This ACS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Preflight Procedures; Airport and Heliport Operations; Hovering
Maneuvers; Takeoffs, Landings, and Go-Arounds; Fundamentals of Flight;
Performance Maneuvers; Ground Reference Maneuvers; Slow Flight and
Stalls; Basic Instrument Maneuvers; Emergency Operations; Special
Operations; and Postflight Procedures.
FAA-S-ACS-28, Flight Instructor--Instrument Rating
Powered-Lift Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the flight instructor
instrument rating in the powered-lift category.
[cir] This ACS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Air Traffic Control Clearances and Procedures; Flight by Reference to
Instruments; Navigation Aids; Instrument Approach procedures; Emergency
Operations; and Postflight Procedure.
FAA-S-ACS-29, Flight Instructor for Rotorcraft Category
Helicopter Rating Airman Certification Standards; November 2023.
[cir] This ACS communicates the aeronautical knowledge, risk
management, and flight proficiency standards for the flight instructor
certificate in the rotorcraft category helicopter rating.
[cir] This ACS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Preflight Procedures; Airport and Helicopter Operations; Hovering
Maneuvers; Takeoffs, Landings, and Go-Arounds; Fundamentals of Flight;
Performance Maneuvers, Emergency Operations; Special Operations; and
Postflight Procedures.
Practical Test Standards:
FAA-S-8081-3B, Recreational Pilot Practical Test Standards
for Airplane Category and Rotorcraft Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the recreational pilot practical tests for airplane,
rotorcraft/helicopter, and rotorcraft/gyroplane.
[cir] This PTS contains the following Areas of Operation for
Single-Engine Airplane: Preflight Preparation; Preflight Procedures;
Airport and Seaplane Base Operations; Takeoffs, Landing, and Go-
Arounds; Performance Maneuvers; Ground Reference Maneuvers; Navigation;
Slow Flight and Stalls; Emergency Operations; and Postflight
Procedures.
[cir] This PTS contains the following Areas of Operation for
Rotorcraft Helicopter: Preflight Preparation; Preflight Procedures;
Airport and Heliport Operations; Hovering Maneuvers; Takeoffs, Landing,
and Go-Arounds; Performance Maneuvers; Ground Reference Maneuvers;
Navigation; Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for
Rotorcraft Gyroplane: Preflight Preparation; Preflight Procedures;
Airport Operations; Takeoffs, Landings, and Go-Arounds; Performance
Maneuvers; Ground Reference Maneuvers; Navigation; Flight at Slow
Airspeeds; Emergency Operations; and Postflight Procedures.
FAA-S-8081-7C, Flight Instructor Practical Test Standards
for Rotorcraft Category Gyroplane Rating; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the flight instructor certification practical tests for
the rotorcraft category, gyroplane class.
[cir] This PTS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subjects; Preflight Preparation;
Preflight Lesson on a Maneuver to be Performed in Flight; Preflight
Procedures; Airport Operations; Takeoffs, Landings, and Go-Arounds;
Fundamentals of Flight; Performance Maneuvers; Flight at Slow
Airspeeds; Ground Reference Maneuvers; Emergency Operations; and
Postflight Procedures.
FAA-S-8081-8C, Flight Instructor Practical Test Standards
for Glider Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the flight instructor certification practical tests for
the glider category.
[cir] This PTS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Preflight Procedures; Airport and Gliderport Operations; Launches and
Landings; Fundamentals of Flight; Performance Airspeeds; Soaring
Techniques; Performance Maneuvers; Slow Flight, Stalls, and Spins;
Emergency Operations; and Postflight Procedures.
FAA-S-8081-9E, Flight Instructor Instrument Practical Test
Standards for Airplane Rating and Helicopter Rating; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the flight instructor certification practical tests for
airplane and helicopter ratings.
[cir] This PTS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subject Areas; Preflight
Preparation; Preflight Lesson on a Maneuver to be Performed in Flight;
Air Traffic Control Clearances and Procedures; Flight by Reference to
Instruments; Navigation Aids; Instrument Approach Procedures; Emergency
Operations; and Postflight Procedures.
FAA-S-8081-15B, Private Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the private pilot practical test for the rotorcraft
category, gyroplane class.
[cir] This PTS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport Operations; Takeoffs,
Landings, and Go-Arounds; Performance Maneuver, Ground Reference
Maneuvers; Navigation; Flight at Slow Airspeeds; Emergency Operations;
and Postflight Procedures.
FAA-S-8081-16C, Commercial Pilot Practical Test Standards
for Rotorcraft Category Gyroplane Rating; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the commercial pilot practical test for the rotorcraft
category gyroplane class.
[cir] This PTS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport Operations; Takeoffs,
Landings, and Go-Arounds; Performance Maneuvers, Navigation; Flight at
Slow Airspeeds; Emergency Procedures; and Postflight Procedures.
[[Page 22489]]
FAA-S-8081-17A, Private Pilot Practical Test Standards for
Lighter-Than-Air Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the private pilot certification practical tests for the
lighter-than-air category, balloon and airship classes.
[cir] This PTS contains the following Areas of Operation for the
Balloon class: Preflight Preparation; Preflight Procedures; Airport
Operations; Launches and Landings; Performance Maneuvers; Navigation;
Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for the
Airship class: Preflight Preparation; Preflight Procedures; Airport
Operations; Takeoffs, Landings, and Go-Arounds; Performance Maneuvers;
Ground Reference Maneuvers; Navigation; Emergency Operations; and
Postflight Procedures.
FAA-S-8081-18A, Commercial Pilot Practical Test Standards
for Lighter-Than-Air Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the commercial pilot certification practical tests for
the lighter-than-air category, balloon and airship classes.
[cir] This PTS contains the following Areas of Operation:
Fundamentals of Instructing; Technical Subjects; Preflight Preparation;
Preflight Lesson on a Maneuver to be Performed in Flight; Preflight
Procedures; Airport Operations; Launches and Landings; Performance
Maneuvers; Navigation; Emergency Operations; and Postflight Procedures.
FAA-S-8081-20A, Airline Transport Pilot and Aircraft Type
Rating Practical Test Standards for Rotorcraft Category Helicopter
Rating; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the airline transport pilot and type rating practical
tests for helicopters.
[cir] This PTS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Takeoff and Departure Phase;
Inflight Maneuvers; Instrument Procedures; Landings and Approaches to
Landings; Normal and Abnormal Procedures; Emergency Procedures; and
Postflight Procedures.
FAA-S-8081-22A, Private Pilot Practical Test Standards for
Glider Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the private pilot certification practical test for the
glider category.
[cir] This PTS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Gliderport Operations;
Launches and Landings; Performance Airspeeds; Soaring Techniques;
Performance Maneuvers; Navigation; Slow Flight and Stalls; Emergency
Operations; and Postflight Procedures.
FAA-S-8081-23B, Commercial Pilot Practical Test Standards
for Glider Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the commercial pilot certification practical test for the
glider category.
[cir] This PTS contains the following Areas of Operation: Preflight
Preparation; Preflight Procedures; Airport and Gliderport Operations;
Launches and Landings; Performance Speeds; Soaring Techniques;
Performance Maneuvers; Navigation; Slow Flight and Stalls; Emergency
Operations; and Postflight Procedures.
FAA-S-8081-29A, Sport Pilot and Sport Pilot Flight
Instructor Rating Practical Test Standards for Airplane Category,
Gyroplane Category, and Glider Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the sport pilot practical tests and proficiency checks
for the airplane, gyroplane, glider, and flight instructor.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Airplane: Preflight Preparation; Preflight Procedures; Airport
and Seaplane Base Operations; Takeoffs, Landings, and Go-Arounds;
Performance Maneuvers; Ground Reference Maneuvers; Navigation; Slow
Flight and Stalls; Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Gyroplane: Preflight Preparation; Preflight Procedures; Airport
Operations; Takeoffs, Landings, and Go-Arounds; Performance Maneuvers;
Ground Reference Maneuvers; Navigation; Flight at Slow Airspeeds;
Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Glider: Preflight Preparation; Preflight Procedures; Airport and
Gliderport Operations; Launches and Landings; Performance Speeds;
Soaring Techniques; Navigation; Slow Flight and Stalls; Emergency
Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Flight
Instructor: Fundamentals of Instructing; Technical Subject Areas; and
Preflight Lesson on a Maneuver to be Performed in Flight.
FAA-S-8081-30A, Sport Pilot and Sport Pilot Flight
Instructor Rating Practical Test Standards for Lighter-Than-Air
Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the sport pilot practical tests and proficiency checks
for the airship, balloon, flight instructor.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Airship: Preflight Preparation; Preflight Procedures; Airport
Operations; Takeoffs, Landings, and Go-Arounds; Performance Maneuvers;
Ground Reference Maneuvers; Navigation; Emergency Operations; and
Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Balloon: Preflight Preparation; Preflight Procedures; Airport
Operations; Launches and Landings; Performance Maneuvers; Navigation;
Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Flight Instructor: Fundamentals of Instructing; Technical Subject
Areas; and Preflight Lesson on a Maneuver to be Performed in Flight.
FAA-S-8081-31A, Sport Pilot and Sport Pilot Flight
Instructor Practical Test Standards for Powered Parachute Category and
Weight-Shift-Control Category; November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the sport pilot practical tests and proficiency checks
for the weight-shift-control, powered parachute, and flight instructor.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Weight-Shift-Control: Preflight Preparation; Preflight
Procedures; Airport and Seaplane Base Operations; Takeoffs, Landings,
and Go-Arounds; Performance Maneuvers; Ground Reference Maneuvers;
Navigation; Slow
[[Page 22490]]
Flight and Stalls; Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Powered Parachute: Preflight Preparation; Preflight Procedures;
Airport and Seaplane Base Operations; Takeoffs, Landings, and Go-
Arounds; Performance Maneuvers; Ground Reference Maneuvers; Navigation;
Emergency Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for Sport
Pilot Flight Instructor: Fundamentals of Instructing; Technical Subject
Areas; and Preflight Lesson on a Maneuver to be Performed in Flight.
FAA-S-8081-32A, Private Pilot Practical Test Standards for
Powered Parachute Category and Weight-Shift-Control Aircraft Category;
November 2023.
[cir] This PTS establishes the aeronautical knowledge, special
emphasis areas considered critical to flight safety, and proficiency
standards for the private pilot practical tests for powered parachute
and weight-shift-control.
[cir] This PTS contains the following Areas of Operation for
Powered Parachute: Preflight Preparation; Preflight Procedures; Airport
and Seaplane Base Operations; Takeoffs, Landings, and Go-Arounds;
Performance Maneuver; Ground Reference Maneuvers; Navigation; Emergency
Operations; Night Operations; and Postflight Procedures.
[cir] This PTS contains the following Areas of Operation for
Weight-Shift-Control Aircraft: Preflight Preparation; Preflight
Procedures; Airport and Seaplane Base Operations; Takeoffs, Landings,
and Go-Arounds; Performance Maneuvers; Ground Reference Maneuvers;
Navigation; Slow Flight and Stalls; Emergency Operations; Night
Operation; and Postflight Procedures.
Furthermore, the FAA adopts the proposed amendments pertaining to
proficiency checks in 14 CFR part 61. As explained in the NPRM,
proficiency checks include a type of review of a pilot's proficiency
generally required to maintain existing privileges or to add privileges
in the case of sport pilot certificates. A proficiency check differs
from a practical test. However, evaluators refer to ACS and PTS when
performing pilot proficiency checks. Therefore, the FAA adopts the
proposed conforming amendments to the proficiency check requirements in
part 61. Specifically, this final rule will require that instrument
proficiency checks under Sec. 61.57(d), PIC proficiency checks under
Sec. 61.58, and sport pilot proficiency checks under Sec. Sec. 61.321
and 61.419 occur in accordance with the appropriate ACS or PTS,
respectively, through minor revisions to the applicable section and
cross-references to the centralized IBR section.
ii. Practical Test Standard Incorporated by Reference Into 14 CFR Part
63
Title 14 CFR part 63 contains the certification requirements for
flight crewmembers other than pilots, specifically flight engineers.
The standards contained in Sec. 63.39(c) require an applicant for a
flight engineer certificate with a class rating to pass a practical
test in the class of airplane for which the applicant seeks a rating.
Revision of Sec. 63.39(a) conforms to the current practice and
specifies that, to pass the practical test for a flight engineer
certificate, an applicant must satisfactorily demonstrate the
objectives in the areas of operation contained in the Flight Engineer
PTS. The Flight Engineer PTS fashions the regulatory subject areas into
areas of operation in the Flight Engineer PTS, which expands regulatory
subject areas into tasks that list the required knowledge and skills
appropriate to the area of operation.\36\ Each task lists an objective,
which consists of the important elements that an applicant must
satisfactorily perform to demonstrate competency. Specifically, the
objective includes what the applicant must be able to do, the
conditions under which the task is to be performed, and the minimum
acceptable standards of performance. As noted previously, the FAA makes
the PTS reasonably available to interested parties to view by providing
free online public access to the FAA Training and Testing website at
www.faa.gov/training_testing. Interested parties can download the ACS
and PTS free of charge at the provided web address.
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\36\ For example, Sec. 63.39(b)(1) requires the applicant to
show that the applicant can satisfactorily perform preflight
inspection. Preflight Inspection is implemented in the Flight
Engineer PTS as area of operation II: Preflight Procedures, expanded
into Task A: Preflight Inspection and Flight Deck Setup and Task B:
Preflight Inspection--Exterior.
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iii. Practical Test Standards Incorporated by Reference Into Part 65
Part 65 contains the certification requirements for airmen other
than flight crewmembers, including aircraft dispatchers and parachute
riggers. Both aircraft dispatchers and parachute riggers must pass a
practical test to obtain a certificate and/or rating.\37\ Part 65
currently contains a centralized IBR section in Sec. 65.23, which
houses the Aviation Mechanic General, Airframe, and Powerplant
Practical Test Standards and the Aviation Mechanic General, Airframe,
and Powerplant Airman Certification Standard; therefore, this final
rule adds the Aircraft Dispatcher Practical Test Standards and
Parachute Rigger Practical Test Standards to Sec. 65.23. As noted
previously, the FAA makes the PTS reasonably available to interested
parties to view by providing free online public access to the FAA
Training and Testing website at www.faa.gov/training_testing.
Interested parties can download the ACS and PTS free of charge at the
provided web address.
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\37\ 14 CFR 65.53(b)(4), 65.115, 65.119, and 65.123.
---------------------------------------------------------------------------
The standards contained in the IBR section at Sec. 65.59 require
an applicant for an aircraft dispatcher certificate to pass a practical
test given by the Administrator with respect to any one type of large
aircraft used in air carrier operations. Because the aircraft
dispatcher practical test occurs in accordance with the Aircraft
Dispatcher PTS, Sec. 65.59 will direct compliance with the Aircraft
Dispatcher PTS through a cross-reference to the centralized IBR section
of Sec. 65.23. The Aircraft Dispatcher PTS contains knowledge and
skill tasks that an applicant must demonstrate to pass the practical
test for an Aircraft Dispatcher certificate. Specifically, the Aircraft
Dispatcher PTS contains areas of operation divided into tasks (e.g.,
navigation and aircraft navigation systems, practical dispatch
applications). Each task lists an objective, which consists of the
elements that the applicant must perform satisfactorily to demonstrate
competency. Specifically, the objective includes what the applicant
must do, the conditions for performance of the task, and the minimum
acceptable standards of performance.
Additionally, both a senior parachute rigger and a master parachute
rigger must pass an oral and practical test for the issuance of a
certificate; likewise, the addition of a type rating to a parachute
rigger certificate (i.e., seat, back, chest, and/or lap type rating)
requires the certificated parachute rigger to pass a practical
test.\38\ The Parachute Rigger PTS governs (1) the oral and practical
test for obtaining a senior parachute rigger certificate and master
parachute rigger certificate and (2) the practical test for obtaining
type ratings for seat, back, chest, and lap; therefore, Sec. Sec.
65.115, 65.119, and 65.123(b) will direct compliance with the Parachute
Rigger PTS through a cross-reference to
[[Page 22491]]
the centralized IBR section of Sec. 65.23. The Parachute Rigger PTS
contains areas of operation (e.g., packing parachutes, parachute
operation, and care), which divide into tasks applicable to the
certificate and/or rating sought. For example, a task only involved in
a seat type rating is delineated as Packing Seat Type Parachute (Seat
Type Rating). Each task lists an objective, which consists of the
elements the applicant must satisfactorily perform to demonstrate
competency. Specifically, the objective includes the ability tested,
the conditions under which the applicant performs the task to
demonstrate ability, and the minimum acceptable standards of
performance. This final rule removes gender references within the
aforementioned parachute rigger regulations.
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\38\ 14 CFR 65.115, 65.119, 65.123(b).
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This final rule also makes one related technical amendment in part
65. Currently, as previously stated, the centralized IBR section in
part 65, Sec. 65.23, houses both the Aviation Mechanic ACS and PTS. As
originally implemented,\39\ Sec. Sec. 65.75 and 65.79 provided that
until July 31, 2023, a mechanic applicant must pass a written test
including the subject areas on the Mechanic PTS and pass an oral and
practical test by demonstrating the prescribed proficiency in the
assigned objectives for the subject areas contained in the Mechanic
PTS. Effective August 1, 2023, these sections required the written,
oral, and practical tests to include the knowledge, risk management,
and skill elements, as applicable, set forth by the Mechanic ACS. While
the Mechanic PTS was removed from Sec. Sec. 65.75 and 65.79 upon the
effective date of the ACS, the PTS remained in the centralized IBR
section. Therefore, this final rule removes the Mechanic PTS from Sec.
65.23 as it is no longer applicable.
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\39\ Aviation Maintenance Technician Schools interim final rule,
87 FR 31391 (May 24, 2022); Aviation Maintenance Technician Schools
final rule, 88 FR 38391 (Jun. 14, 2023).
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B. Discussion of Comments Related to the ACS and PTS
As previously discussed, the FAA provided the draft ACS and PTS
documents proposed to be incorporated by reference in the docket for
the NPRM associated with this final rule.\40\ The FAA received numerous
comments on these proposed ACS and PTS. These comments included
suggestions and remarks on groupings of ACS and PTS, as well as those
specific to a single ACS/PTS. This section of the preamble addresses
comments that the FAA considered but did not result in changes to the
ACS and PTS and explains the FAA's reasoning for not adopting the
changes as suggested or adopting a tangentially related revision
related to a specific comment. The first section, Broad ACS Comments
(section IV.B.1. of this preamble), responds to comments that are
generic in nature to a group of ACS, whether by certificate level or
category/class of aircraft. The second section, Specific ACS Comments
(section IV.B.2. of this preamble), responds to comments intended to
apply only to one ACS or PTS. The last section (section IV.B.3. of this
preamble) discusses universally applicable comments noted by industry.
For those comments that the FAA agreed with and therefore implemented
the suggested change, see section IV.D of this preamble.
---------------------------------------------------------------------------
\40\ FAA-2022-1463.
---------------------------------------------------------------------------
1. Broad ACS Comments
i. Airplane ACS
First, Flight Safety International (FSI) commented on the use of
the term ``flight manual,'' noting that the FAA's statement in the
powered-lift ACS introduction explains what the term means and
suggesting the addition of a similar explanation in an introduction to
the Airplane ACS.\41\ The FAA notes that '' Use of the Term Flight
Manual'' appears in the new Powered-Lift ACS introduction section to
provide context needed to clarify that flight manual is synonymous
language with powered-lift aircraft flight manual in order to
facilitate the introduction of a novel aircraft. The generic term of
flight manual was used for the powered-lift ACS in the absence of a
specified regulatory term for the powered-lift flight manual as a
result of rulemaking. The FAA did not implement this change to the
Airplane and Rotorcraft ACS as it is already used throughout the
CFR.\42\
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\41\ FSI provided a similar suggestion in relation to the
Helicopter ACS; the FAA declined to add an explanation to the
Helicopter ACS regarding flight manuals for the same reasons
provided herein.
\42\ See 14 CFR 21.5, 91.9.
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One commenter suggested limiting preflight assessment in the
Private, Commercial, and Flight Instructor Airplane ACS to only
elements involving inspection of the aircraft without any elements
related to human factors. The commenter stated that duplicated elements
make the task unfocused and difficult to learn and assess. The FAA did
not revise the ACS in this final rule as an applicant's assessment of
the aircraft, airman, and environmental factors are all elements that
could affect the safety of flight; therefore, an airman's ability to
evaluate him/herself in relation to a flight is as compelling from a
safety standpoint as assessing the aircraft and the weather.
Next, the ARAC ACS WG commented on tasks related to runway
incursion. The ARAC ACS WG suggested adding a runway incursion
avoidance Task in the Private and Commercial Airplane ACS in AOO III,
Airplane and Seaplane Base Operations, to align with the dedicated task
that exists in the Instructor Airplane ACS. The FAA recognizes the
importance of testing of runway incursion avoidance and notes that this
topic is included in the private and commercial airplane ACS throughout
multiple tasks. Runway incursion avoidance will be tested in at least
one of the required tasks. An example of this is AOO II Task C. Taxiing
of the Commercial Pilot Airplane ACS, which requires the evaluator to
determine that the applicant exhibits satisfactory knowledge, risk
management, and skills associated with taxi operations, including
runway incursion avoidance. The FAA's intention is to mitigate risk by
having the instructor applicant demonstrate during the practical test
how to deliver training on the elements and techniques for runway
incursion avoidance. Once certificated, the instructor will train their
students how to avoid runway incursions as an inherent element of
providing training on taxiing, takeoffs, and landings. This training
should minimize the amount of runway incursions in the future. As a
result, the FAA did not create a separate task for runway incursion
avoidance in these ACS.
Additionally, the ARAC ACS WG suggested moving the Runway Incursion
Task found in the Instructor ACS, AOO II, Technical Subject Areas, to
AOO VI, Airplane and Seaplane Base Operations. The FAA did not
implement this change in the adopted ACS since evaluators already
incorporate this required task in a plan of action.
One commenter suggested removing certain risk management elements
in the Human Factors tasks from the Airplane ACS.\43\ Specifically, the
commenter supported the removal of ``Distractions, task prioritization,
loss of situational awareness, or disorientation'' and ``Confirmation
and expectation bias'' from the Human Factors Task, as the commenter
believed they were vague. The FAA notes that the ACS is intended to
communicate and demonstrate risk management as a continuous process
that includes identification, assessment, and mitigation of task-
specific hazards
[[Page 22492]]
that create risk. The risk management element identifies the
circumstantial issues that aviators must consider in association with a
particular task. Furthermore, risk management sections in each ACS
translate special emphasis items and abstract terms into specific
behaviors relevant to each task. Human factors circumstantial issues
have been identified by the National Transportation Safety Board (NTSB)
incident and accident reports, which include distractions and
expectation bias as factors.\44\ Furthermore, risk management elements
like distractions, task prioritization, loss of situational awareness,
disorientation, and confirmation expectation bias are observable risk
management behaviors that are required to be evaluated. The references
identified within each task provide additional information on the
objective and task elements, which includes FAA guidance documents. As
such, the Human Factors task found in the Airplane ACS provides
reference material that leads to the FAA Risk Management Handbook (FAA-
H-8083-2, Pilot's Handbook or Aeronautical Knowledge, and Aeronautical
Information Manual (AIM), which aligns with these ACS risk management
elements.
---------------------------------------------------------------------------
\43\ The Human Factors task is set forth in AOO I, Task H in the
Private and Commercial Airplane ACS and AOO II, Task A in the Flight
Instructor Airplane ACS.
\44\ See, for example, NTSB Reports: DCA22LA126, DCA18IA081,
DCA06MA064.
---------------------------------------------------------------------------
Additionally, the commenter also recommended changing the risk
element ``aeromedical and physiological issues'' to associate with the
first knowledge element of the Human Factors Task--``Symptoms,
recognition, causes, effects, and corrective actions associated with
aeromedical and physiological issues.'' The commenter stated that this
would allow the examiner the ability to select up to three sub-elements
and ask the applicant to identify, assess, and mitigate the associated
risks with those sub-elements. Currently, the ACS addresses the
commenter's concern as examiners must select at least one knowledge
element and a risk management element. This allows the examiner to ask
the applicant to assess risk related to any knowledge element. The FAA
did not make the requested changes to the risk management elements
identified in the Airplane ACS Human Factors tasks for the reasons
noted above.
The same commenter suggested that the Private, Commercial, and
Flight Instructor Airplane ACS return to how slow flight was performed
in the Flight Instructor Airplane PTS, as the commenter asserted that
the ability to fly an airplane at its absolute minimum controllable
airspeed proficiently is far more beneficial than merely avoiding the
stall warning because ``pilots will get used to it.'' The commenter
also stated that the new method of slow flight implicitly teaches
pilots dependence on stall warning devices, which, for many airplanes,
is highly inaccurate and advisory at best.
The FAA notes that Safety Alert for Operations (SAFO) 17009 \45\
identified loss of control in flight to be the leading cause of fatal
general aviation accidents in the United States and commercial aviation
worldwide. As a result, the prevention of loss of control in flight in
general aviation was identified on the National Transportation Safety
Board's (NTSB) \46\ Most Wanted List of Safety Improvements for 2017.
With the release of the Private Pilot--Airplane ACS in June 2016, the
FAA revised the slow flight evaluation standard to reflect maneuvering
without a stall warning (e.g., aircraft buffet, stall horn, etc.). The
FAA explained this change in SAFO 16010 \47\ as one approach to
addressing loss of control in flight accidents in general aviation. One
of the primary concerns was that because a pilot would no longer be
evaluated while flying at slow speeds with the airplane near the
critical angle of attack (AOA), that pilot would not be trained or
proficient at maneuvering under these conditions or understand what
happens beyond the stall warning. The FAA asserted in SAFO 16010 and
maintains the position that a pilot is still expected to ``know and
understand the aerodynamics behind how the airplane performs from the
time the stall warning is activated to reaching a full stall.'' The FAA
also suggested that the pilot can acquire this knowledge in ground
training and further consolidate it in the airplane while practicing
the Stall Task skills in the ACS. At the time of the publication of
SAFO 17009, the FAA reviewed Slow Flight and Stalls AOOs to ensure the
knowledge, risk management, and skill elements adequately capture what
a pilot should know, consider, and do relative to each task. As a
result of that review, the FAA revised the evaluation standards for
certain tasks for the private pilot airplane and commercial pilot
airplane practical tests. The FAA continues to adopt this rationale and
did not implement the requested changes to the maneuvering during slow
flight tasks to the Private, Commercial, or CFI Airplane ACS.
---------------------------------------------------------------------------
\45\ FAA SAFO 17009, Airman Certification Standards (ACS): Slow
Flight and Stalls, May 30, 2017.
\46\ NTSB 2017-2018 Most Wanted List of Transportation Safety
Improvements, https://www.ntsb.gov/Advocacy/mwl/Documents/2017-18/MWL-Brochure2017-18.pdf.
\47\ To avoid confusion the FAA has cancelled SAFO 16010,
Maneuvering During Slow Flight in an Airplane, and replaced it with
a more comprehensive discussion in SAFO 17009, Airman Certification
Standards (ACS): Slow Flight and Stalls.
---------------------------------------------------------------------------
One commenter commented on several elements pertaining to
electronic flight bags (EFB). First, the commenter suggested making the
use of an EFB a separate knowledge element from route planning within
the Preflight Preparation AOO since an EFB can be used in other
planning calculations. The commenter also suggested removing EFB as a
risk element since it is not a significant cause of accidents,
incidents, or violations and removing it as a skill element since its
use is implicit in S1, Use an electronic flight bag (EFB), if
applicable. While the FAA understands the commenter's reasoning for
wanting a separate knowledge element for EFB, the intention of the
element is for the applicant to demonstrate the understanding of route
planning using an EFB if available. The FAA maintains that use of an
EFB is most appropriate in the risk and skill portions of the practical
test because use of an EFB presents potential hazards. An applicant who
supplies or uses an EFB might use it in a manner that can affect the
safety of the flight, thereby necessitating training and testing on the
skill necessary for its use and the inherent risk of its use. In
addition, the skill elements pertaining to an EFB more broadly
encompass all use of an EFB by the applicant for planning and
navigation.
ii. Helicopter ACS
The FAA received several general comments to the Rotorcraft
Category, Helicopter Class ACS that apply to more than one ACS (i.e.,
suggested changes in the Private Helicopter would result in related
changes in the Commercial Helicopter, which could, in turn, have
implications for the Flight Instructor Helicopter ACS). This section
summarizes and responds to the comments in a generalized fashion rather
than duplicate explanations per specific ACS.
One commenter requested a change in the Vertical Takeoff and
Landing Task under Hovering Maneuvers (AOO IV, Task A, in both the
Private and Commercial Helicopter ACS) to specify the position
maintained within 4 feet of a designated point should be with minimal
aft movement rather than with no aft movement, as currently required.
The commenter stated that it is unrealistic to require no aft movement
during the Vertical Takeoff and Landing Task because the applicant may
not be able to prevent the helicopter from
[[Page 22493]]
moving aft due to variable or gusty winds, particularly in a light
training helicopter.
The FAA notes some components of the Hovering Maneuver, Vertical
Takeoff and Landing task is a demonstration of directional control and
maintaining a position over the intended hover area, which inherently
includes rotor safety considerations. The tail rotor of some
helicopters cannot be seen from the cabin, and it can be difficult to
judge distance from obstructions. In addition, strong crosswinds and
tailwinds may require the use of more tail rotor thrust to maintain
directional control. A consideration to be evaluated prior to the
flight portion of the practical test is to operate within the
limitations of the RFM, as well as the applicant's personal minimums.
Personal minimums are evaluated as part of the Preflight Preparation,
Human Factors task. Operating within those parameters is a
demonstration of risk-based decision making and should give the
applicant opportunity to demonstrate mastery of the aircraft. As
described in the ACS, evaluators assess the applicant's mastery for
specified tasks. The failure to take prompt corrective action when
tolerances are exceeded is an example of one typical area of
unsatisfactory performance for disqualification of a task. The FAA did
not implement this change in the adopted ACS and maintains no aft
movement as the level of expected proficiency for the task to qualify
for the certificate or rating and maintain the level of safety required
in operations.
The same commenter stated the use of the term ``normal'' as it
applies to the Normal Approach and Landing Task \48\ is arbitrary and
may vary given different conditions, obstacles, etc. Specifically, the
commenter sought to replace the standard of normal approach angle and
rate of closure with ``constant'' approach angle and rate of closure.
However, the FAA notes that it uses the term ``normal'' intentionally
to account for a range of conditions pilots may encounter. A descent
angle is established to provide distinguishing differences between a
shallow, normal, and steep approach. The Helicopter Flying Handbook,
FAA-H-8083-21, which is listed as a reference for this particular task,
describes a normal approach technique as using a descent angle between
7[deg] and 12[deg], which provides an open range to capture what would
be considered a ``normal'' maneuver.\49\ This descent angle range of
5[deg] captures the margin of error that can occur with slight
variances in a person's normal approach visualized glide angle, but
still falls within those parameters. Furthermore, the Helicopter Flying
Handbook defines the differences in glide angles for a shallow approach
at 3[deg] to 5[deg] and a steep approach at 13[deg] to 15[deg].
---------------------------------------------------------------------------
\48\ The FAA revised the task name ``Normal Approach and
Landing'' to ``Normal and Crosswind Approach'' pursuant to comments,
as set forth in the Record of Changes in section IV.D., Table 3 of
this preamble.
\49\ FAA-H-8083-21, Helicopter Flying Handbook (2019), Chapter
9: Basic Flight Maneuvers, Approaches, Normal Approach to Hover (pp.
9-19).
---------------------------------------------------------------------------
Additionally, the commenter suggested revising an element \50\
pertaining to determination of wind direction to remove the option of
the use of visible wind direction indicators. The commenter stated that
the element, as currently written, is superfluous. The FAA disagrees
with the commenter's contention. Helicopters often land and take off
from off-airport sites, which requires the pilot to determine wind
direction using various means. The element simply provides the pilot
the clear option to demonstrate competency determining wind direction
with or without wind direction indicators.
---------------------------------------------------------------------------
\50\ The FAA notes that these comments specifically reference
AOO V, Task G in the Private Helicopter ACS and AOO V, Task B in the
Commercial Helicopter ACS, but this element appears in numerous
instances throughout all Helicopter ACS.
---------------------------------------------------------------------------
The commenter also commented on an element within AOO VI
(Performance Maneuvers), Task C: Autorotation with Turns in a Single-
Engine Helicopter in both the Private and Commercial Helicopter ACS.
Specifically, the commenter stated that the skill element that requires
rolling out of the turn no lower than 300 feet above ground level (AGL)
along the flight path to the selected landing area should be
eliminated. The commenter asserted the element is arbitrary and
unrealistic in some situations since training helicopters may begin the
autorotation at 500 feet and would not roll out of the turn above 300
feet. The commenter stated that if the FAA felt elimination was not
necessary, then the element should simply require roll out no lower
than the start of the cyclic deceleration.
The FAA disagrees with the commenter's recommendation to eliminate
or alternatively modify this skill element because a lower roll out
altitude decision point increases the risk of helicopter accidents
during training and practical tests. In response to helicopter
autorotation training accidents, the FAA published Advisory Circular
(AC) 61-140, Autorotation Training, (dated August 31, 2016) which
discusses a study conducted by the FAA and the Joint Helicopter Safety
Analysis Team regarding helicopter training accidents. The AC outlines
several safety recommendations, including a 300 feet AGL decision check
with helicopter maneuvering completed before that point and the
helicopter properly aligned with the intended landing area. Given the
Joint Helicopter Safety Analysis Team findings, the FAA finds the
safety recommendation to complete all turns by 300 feet AGL will
enhance safety during training and practical tests since this change
reduces the tendency of the applicant to rush through the turn and
compromise safety during the maneuver.
However, in light of the commenter's concern, and to enable pilots
to rollout from turns no lower than 300 feet AGL, the FAA finds it
necessary to increase the minimum entry altitude of the maneuver from
500 feet AGL to 700 feet AGL. Accordingly, the FAA amended appendix 3,
Operational Requirements, Limitations, & Task Information for
``Autorotation with Turns in a Single-Engine Helicopter'' to reflect a
minimum entry altitude of at least 700 feet AGL.
Next, FSI suggested moving the ``Taxiing with Wheel-type Landing
Gear'' Task from the Hovering Maneuvers AOO to the Airport and Heliport
Operations AOO. The FAA disagrees because an evaluator could ask an
applicant who brings a helicopter with wheel-type landing gear to
demonstrate the Taxiing with Wheel-type Landing Gear Task on the ground
or perform a hover taxi, as well as other related Tasks in the Hovering
Maneuvers AOO.
The ARAC ACS WG suggested that autorotation Tasks should not
include a testing standard for accuracy of a selected designated point.
However, the FAA expects an applicant to select and reach a designated
point within a given tolerance as part of an autorotation during a
practical test. By choosing the entry point and autorotating to a
selected spot, the applicant demonstrates the skill to select and
maneuver to a suitable landing point should an engine failure occur,
much like a realistic scenario in the national airspace system (NAS).
Finally, the ARAC ACS WG noted that the Helicopter ACS use the
terms IIMC or UIMC, which may lead the aviation industry to assume each
term has a different meaning. The FAA notes it uses both terms,
unintended flight in instrument meteorological conditions (UIMC) and
inadvertent instrument meteorological conditions (IIMC) to describe
flight in visual meteorological conditions (VMC) continued into
[[Page 22494]]
instrument meteorological conditions (IMC) without the intent to do so.
Use of either or both terms can inform the public of how aviation
agencies categorize this event. The FAA introduced UIMC in addition to
IIMC in the Helicopter Flying Handbook. The FAA understands how
confusion could arise and has, therefore, removed the word ``or'' from
the affected ACS element and replaced it with a solidus symbol to read
``IIMC/UIMC'' to communicate the interchangeability of the phrases and
acronyms.
iii. Powered-Lift ACS
While many commenters expressed appreciation to the FAA for
publication of the six Powered-Lift ACS, commenters also noted
perceived shortcomings to the Powered-Lift ACS as a whole. Most
prominently, Embraer S.A., General Aviation Manufacturers Association
(GAMA), Wisk Aero, and Lilium GmbH made similar comments regarding
powered-lift and a vertical takeoff and landing (VTOL). The commenters
urged the FAA to ensure the certification standards properly train and
qualify airmen, while considering powered-lift's imminent entry into
commercial operations. However, the commenters indicated that the
Powered-Lift ACS series does not address the complexities of every type
of VTOL, eVTOL, or powered-lift under development. For context, Lilium
specifically provided an example that the required aircraft knowledge
related to fuel, hydraulic, and pneumatic systems would not apply to
the all-electric Lilium jet, which does not contain these components.
As another example, Embraer also expressed concern that multiple tasks
under the In-Flight Maneuvers AOO within the ATP/Type Rating Powered-
Lift ACS and the High-Altitude Operations AOO within the Commercial
Pilot for Powered-Lift ACS may not apply to all powered-lift types.
The FAA notes that it developed the Powered-Lift ACS with the
understanding that these novel aircraft will possess varied systems and
operating and handling characteristics such that a rigid airman
certification framework would be difficult to implement. In other
words, the FAA understands the flexibility required of the
corresponding ACS for airman certification. For example, powered-lift
may be precluded from certain tasks due to the powered-lift's design
(e.g., stalls or circling approaches) that would be required by the
ACS. Conversely, a powered-lift may be able to perform a maneuver that
was not contemplated by the ACS, as adopted in this final rule.
The FAA maintains that the six Powered-Lift ACS, as adopted in this
final rule, provide an appropriate practical test foundation for the
forthcoming powered-lift operations. GAMA echoed this sentiment in a
comment, emphasizing that the documents provide a suitable initial set
of standards. Additionally, Joby Aviation acknowledged that the ATP and
Type Rating for Powered-Lift ACS are relatively flexible and adaptable
to support new and novel technologies. The FAA notes that while
industry and working groups provided extensive input and expertise on
the Powered-Lift ACS, a degree of uncertainty remains regarding the
addition of discrete tasks for certain powered-lift type ratings based
on the powered-lift's unique characteristics. Should the Flight
Standards Board Report (FSBR) and type certification process reveal any
additional tasks not accounted for in the ACS but considered essential
to the operation of the specific type of powered-lift, the FAA may set
forth these tasks in a type-specific appendix to the ACS, subject to
incorporation by reference in accordance with the APA.
On June 14, 2023, the FAA published the proposed rule, Integration
of Powered-Lift: Pilot Certification and Operations; Miscellaneous
Amendments Related to Rotorcraft and Airplanes.\51\ This NPRM proposed
certain flexibilities in consideration of the differing powered-lift
characteristics related to type specific airman certification testing.
Upon publication of the NPRM, stakeholders had an opportunity to submit
public comments on the FAA's proposal, including these flexibilities.
The FAA will consider all significant comments received on the powered-
lift NPRM in the final rule and reconcile the powered-lift final rule
(and necessary guidance) with this final rule, as appropriate. Once the
FAA publishes the powered-lift final rule, the FAA will actively engage
with stakeholders to develop or mitigate Tasks and publish guidance
specific to differentiating powered-lift types as the FAA and industry
work to achieve aircraft certification.
---------------------------------------------------------------------------
\51\ 88 FR 38946.
---------------------------------------------------------------------------
As it pertains to specific comment from Lilium and Joby, the FAA
understands the use of the term ``fuel'' rather than the term
``energy'' could lead individuals to reach the conclusion that this
term excludes electric propulsion systems. In a prior rulemaking, the
FAA stated it did not intend to preclude the certification of electric
propulsion systems or other non-fossil-fuel-based propulsion systems,
such as provided by certain carbon-based fuels or electrical potential,
and the FAA maintains that position now.\52\ The term ``fuel systems''
also includes a means of storage for the electrical energy provided
(e.g., batteries that provide energy to an electric motor) or devices
that generate energy for propulsion (e.g., solar panels or fuel
cells).\53\ The FAA considers it appropriate to use the term ``engine''
for powered-lift electric motors and recognized this in the first
special conditions for an electric engine in September 2021.\54\
---------------------------------------------------------------------------
\52\ See Revision of Airworthiness Standards for Normal,
Utility, Acrobatic, and Commuter Category Airplanes final rule, 81
FR 96572 (Dec. 30, 2016).
\53\ For example, Sec. 91.205(b)(9) refers to a ``[f]uel gauge
indicating the quantity of fuel in each tank.'' In instances such as
this, the fuel tank may refer to the electric battery that stores
the energy.
\54\ Special conditions: magniX USA, Inc., magni350 and magni650
Model Engines; Electric Engine Airworthiness Standards final special
conditions, 86 FR 53508 (Sep. 27, 2021).
---------------------------------------------------------------------------
Joby stated that elements with applicability qualifiers and
references to appendix 3 of the ACS create redundancy and confusion.
Specifically, a portion of appendix 3, Equipment Requirements &
Limitations, states that an evaluator is expected to test the
applicant's knowledge of the systems that are available or installed
and operative during the ground and flight portions of the practical
test. Joby stated this indicates a pilot should only be checked in
accordance with the aircraft's equipment, but that certain
applicability modifiers \55\ used throughout the ACS introduce
confusion by implying items without the modifier are required, even if
the aircraft isn't equipped accordingly. Joby proposed the removal of
all applicability language from the element and, instead, suggested
reinforcement of the applicability of appendix 3 language to all
elements.
---------------------------------------------------------------------------
\55\ Joby refers to phrases such as ``as applicable,'' ``if
applicable,'' ``if equipped,'' ``if installed,'' ``if available,''
and ``as applicable,'' and similar language.
---------------------------------------------------------------------------
The FAA did not remove applicability language in the adopted ACS.
As previously discussed in this section, the FAA understands that some
powered-lift will not be equipped with certain equipment that may be
required in these foundational ACS, just as some equipment and elements
in airplane and helicopter ACS are inapplicable to some airplanes and
helicopter. Additionally, due to emerging technology and active
aircraft certification projects, the FAA cannot determine which one
statement would be applicable to all powered-lift aircraft and cannot
address this issue without more input from stakeholders,
[[Page 22495]]
as intended through an aircraft's certification process and Flight
Standards Board. These key processes will inform airman certification
frameworks for each specific powered-lift type.
Next, Joby noted that the ACS documents should not introduce new
requirements not found in part 61 without also modifying part 61. Joby
cited a few examples, including aviation security concerns, required
use of safety restraint systems, and passenger safety briefings. Joby
stated that these items are already captured more broadly in Area of
Operation I, Preflight Preparation, Task E, The Code of Federal
Regulations. The FAA did not adopt Joby's recommendation. The FAA seeks
to place elements in Tasks where they fit logically as part of an Area
of Operation and Task and maintains transparency in knowledge and
testing expectations through explicit elements. Specifically, because
Areas of Operation in part 61 are extensive in scope and limited in
detail, a Task or element might not be referenced in 14 CFR. The items
identified by Joby are appropriate elements of preflight procedures,
thus FAA has placed them in AOO II, Preflight Procedures, consistent
with the same requirements in the airplane and rotorcraft ACS. Because
IBR is a process by which content is made regulatory, these items have
the same standing as the areas of operation listed in part 61.\56\
---------------------------------------------------------------------------
\56\ If the FAA determined that a testing task was required to
determine the pilot's proficiency, but that task did not properly
fit under an existing area of operation, the FAA would revise the
areas of operation in part 61 to accommodate the new testing task.
The FAA most recently did this in the Operations of Small Unmanned
Aircraft Systems over People final rule (86 FR 4314, Jan. 15, 2021)
when it added night operations and operations over people to the
list of knowledge areas for airman certification under part 107.
---------------------------------------------------------------------------
iv. Glider PTS
The ARAC ACS WG and Soaring Safety Foundation (SSF) provided a list
of suggested changes to the Glider PTS. The FAA notes that several of
the items suggested by the ARAC ACS WG and SSF simply set forth
revisions without explanation, safety rationale, or data for the
requested change. The FAA notes that many elements already encompass
the commenters' suggested items.\57\ Commenters also suggested
amendment of many Fundamentals of Instructing (FOI) elements in the
Glider Flight Instructor PTS to align with the Aviation Instructor's
Handbook, which the FAA notes is listed as a reference. The Glider PTS
is slated to transition to ACS in the future, and the agency may
consider these items when collaborating with the ARAC ACS WG to draft
the Glider ACS. To note, the FAA agreed with several suggestions and
implemented corrections in the Glider PTS adopted with this final rule.
These accepted changes are detailed in section IV.D of this preamble.
---------------------------------------------------------------------------
\57\ For example, within the Commercial Glider PTS, the ARAC ACS
WG suggested modification of the weather Task to include low-level
wind shear conditions and techniques for avoiding them. The FAA
notes that evaluators can cover this information when asking the
applicant to explain hazards associated with flight in the vicinity
of thunderstorms (item 3). As another example, the ARAC ACS WG
suggested the addition of self-imposed medical stress in the
Aeromedical Factors Task (AOO I, Task F). The FAA notes that item
1.g. (stress and fatigue) within Task F may encompass all types of
stress, including self-imposed medical stress. Further, The ARAC ACS
WG suggested adding Notices to Air Missions (NOTAMs) as an item in
AOO VIII, Navigation, Task B, National Airspace System for the
Private and Commercial PTS. The FAA notes that Task B (National
Airspace System) in this AOO includes all necessary information for
the applicant to function in the NAS and does not exclude NOTAMs.
---------------------------------------------------------------------------
SSF suggested the addition of clearing procedures in all flight
maneuver tasks in the Private, Commercial, and Flight Instructor Glider
PTS. The FAA notes while only some Tasks may list that the applicant
clears the area before a maneuver, the unsatisfactory performance
section of the Glider PTS specifically discusses the failure to use
proper and effective visual scanning techniques to clear the area
before and while performing maneuvers. Because this is incorporated
within the practical test via the appendix, the FAA does not see a need
to add the specific element in each task. When the PTS transitions to
the ACS, it may be more appropriate to delineate clearing the area as a
skill task at that time.
Other SSF comments related to slips with or without the use of drag
devices during the skill portion of the Slip to Landing Task. The FAA
notes not all gliders have the capability to demonstrate a slip with
drag devices extended. Therefore, the Slips to Landing task
appropriately tests the airman's knowledge of slips with and without
the use of drag devices. Only the skill element requires a slip without
the use of drag devices. No justification or safety information was
provided with the comment, and the FAA did not make a change.\58\
---------------------------------------------------------------------------
\58\ The SSF referenced an FAA Designee Update from January 2000
published by the FAA in their justification for changes to the PTS;
however, the FAA is unable to locate the reference document and,
therefore, is unable to determine the proposed wording change.
---------------------------------------------------------------------------
v. Commercial Pilot ACS
As part of FSI's comments encouraging the FAA to strive for
uniformity within the various ACS and PTS, FSI noted inconsistencies
pertaining to the Night Operations tasks among the Commercial ACS.
Specifically, FSI noted that the Commercial Airplane ACS has no Night
Operations task, while the Commercial Powered-Lift ACS has a designated
Night Operations task under AOO I, Preflight Preparation, and the
Commercial Rotorcraft-Helicopter ACS includes the Night Operations task
under AOO IX, Special Operations. The FAA agrees that for uniformity
among the ACS Commercial Pilot documents the Night Operations task for
both Powered-Lift and Helicopter categories now appear in AOO I,
Preflight Preparation. The helicopter and powered-lift aircraft conduct
lower altitude operations and off-airport night operations into
unprepared landing areas, which involve a higher degree of risk due to
an increase in unpredictability compared to standard airport
operations. As a result, the FAA included the Night Operations task in
the Powered-Lift and Helicopter ACS and did not add it to the
Commercial Airplane ACS.
vi. Instrument Rating and Flight Instructor--Instrument Rating ACS
The FAA proposed to incorporate by reference five ACS and PTS to
obtain an instrument rating and/or an instrument instructor rating.\59\
Similar to the helicopter comments, some commenters suggested revisions
for one specific Instrument ACS or PTS that would apply to the entire
series of instrument and flight instructor-instrument rating standards.
This section summarizes those comments related to the Instrument ACS
and PTS and responds accordingly.
---------------------------------------------------------------------------
\59\ Instrument Rating--Airplane, Instrument Rating--Helicopter,
Instrument Rating--Powered-Lift; Flight Instructor Instrument--
Airplane and Helicopter, Flight Instructor Instrument--Powered-Lift.
---------------------------------------------------------------------------
First, one commenter stated that the Instrument Proficiency Check
(IPC) Task table in the Instrument ACS appendix has no regulatory basis
and inappropriately mandates a certain minimum number of Tasks within
the corresponding AOOs mentioned in 14 CFR 61.57. The commenter further
asserted that the addition of an IPC Task table with specific Tasks
should not be part of the ACS/PTS IBR rule and should be a separate
rulemaking process to allow comments on the FAA's selection of Tasks.
The commenter suggested either (1) removing the IPC requirements from
the ACS and issuing a subsequent rulemaking to address the topic of IPC
requirements (with content added to AC 61-98 in the meantime) or
[[Page 22496]]
(2) reissuing the NPRM to solicit comments on the IPC requirements.
As previously explained, Sec. 61.57(d), prior to this final rule,
listed the specific AOOs for an IPC. In practice, these AOOs were also
set forth in the applicable PTS or ACS with an accompanying task table.
Therefore, in the NPRM, the FAA simply proposed to remove the specific
AOOs from the regulation itself and, instead, provide a table within
the applicable ACS in the appendix with the specific AOOs and tasks to
be tested. The footprint of the IPC was neither expanded nor were
additional AOOs and tasks added to the IPC ACS and PTS via the tasking
table. In other words, the previously required minimum AOOs and Tasks
for an IPC remain unchanged. Additionally, the FAA amended the
regulatory text for Sec. 61.57(d) to direct a person to the
appropriate ACS to identify the requirements for an IPC. Within the
appropriate ACS is an IPC task table that identifies the minimum
required AOOs and tasks. This change incorporates language to specify
the minimum requirements of an IPC, but also allows for additional
tasks if the instructor deems it necessary to determine instrument
proficiency.
To illustrate, pursuant to Sec. 61.57(d) prior to this final rule,
the IPC requirements included at least: air traffic control clearances
and procedures, flight by reference to instruments, navigation systems,
instrument approach procedures, emergency operations, and postflight
procedures. In examining the IPC table in, for example, the Instrument
Rating--Airplane ACS, the AOOs/Tasks correspond in the following
manner:
Table 2--Example Comparison of IPC Tasks
------------------------------------------------------------------------
Area of operation set forth
by Sec. 61.57(d)(1) prior Corresponding AOO/task in the instrument
to this final rule rating--Airplane ACS IPC table
------------------------------------------------------------------------
Sec. 61.57(d)(1)(i): Air AOO III (Air Traffic Control Clearances
traffic control clearances and Procedures), Task B: Holding
and procedures. Procedures in Air Traffic Control
Clearances.
Sec. 61.57(d)(1)(ii): AOO IV (Flight by Reference to
Flight by reference to Instruments), Task B: Recovery from
instruments. Unusual Flight Attitudes in Flight by
Reference.
Sec. 61.57(d)(1)(iii): AOO V (Navigation Systems), Task A:
Navigation systems. Intercepting and Tracking Navigational
Systems and DME Arcs.
Sec. 61.57(d)(1)(iv): AOO VI (Instrument Approach Procedures),
Instrument approach All Tasks.
procedures.
Sec. 61.57(d)(1)(v): AOO VII (Emergency Operations), Task B:
Emergency operations. One Engine Inoperative (Simulated)
during Straight-and-Level Flight and
Turns; Task C: Instrument Approach and
landing with an Inoperative Engine
(Simulated); and Task D: Approach with
Loss of Primary Flight Instrument
Indicators.
Sec. 61.57(d)(1)(vi): AOO VIII (Postflight Procedures), All
Postflight procedures. Tasks.
------------------------------------------------------------------------
The commenter stated that the tasking table would transform the
task table from strong guidance about what the FAA considers a
representative set of tasks to affirmative regulations mandating the
use of the task table, thereby decreasing a flight instructor's
discretion in conducting the IPC. As illustrated in the table, the
tasking table does narrow some of the AOOs; however, the evaluator
retains discretion to select multiple knowledge and risk management
elements within those tasks. Additionally, where the FAA narrowed the
area of operation to a task, it does not change the parameters expected
of the check. An evaluator would cover such tasks under Sec.
61.57(d)(1) as written prior to this final rule and, therefore, the
table does not add any additional requirements to the proficiency
check.
Finally, to the extent that the commenter suggested the ACS and PTS
documents were not an appropriate means to establish the IPC
requirements, because an IPC is designed to ensure that a pilot has
maintained the instrument skills required for initial certification,
the FAA deems the ACS and PTS the appropriate mechanism to delineate
the necessary tasks for an IPC. The FAA notes that this rulemaking
extended an opportunity for the regulated community to provide comments
related to any and all of the ACS and PTS, which included substantive
comments on required tasks and content contained in the appendices.
Relatedly, the ARAC ACS WG commented that Sec. 61.57(d) does not
incorporate ACS-8, the Instrument Rating--Airplane ACS, by reference.
Based on the comment provided, the FAA could not determine the
rationale behind the ARAC ACS WG's perception. The language, as adopted
by this final rule, requires that an IPC must include the AOOs
contained in the applicable ACS, incorporated by reference by Sec.
61.14 as listed in new appendix A to part 61 appropriate to the rating
held. Appendix A to part 61 provides that the Instrument Rating--
Airplane ACS, as set forth in Sec. 61.14, applies to a person seeking
an Instrument Proficiency Check--Airplane.
Further, the ARAC ACS WG commented on the required tasks set forth
by the IPC table pertaining to AOO VI (Instrument Approach Procedures)
stating that the IPC table should only require one non-precision
approach and not require all tasks in the AOO, which effectively
requires evaluation of two different non-precision approaches via Task
A and the note regarding that task in appendix 3. As the FAA previously
stated, an IPC is designed to ensure that a pilot has maintained the
instrument skills required for initial certification. Additionally, it
is possible a pilot could be non-current for many years, prior to
fulfilling the IPC requirements. As a result, in the interest of
safety, the FAA did not change the requirement.
Additionally, the ARAC ACS WG sought confirmation regarding a
revision to Localizer Performance with Vertical guidance (LPV)
approaches. Specifically, the ARAC ACS WG noted that the testing
standard within the published Instrument Rating--Airplane ACS prior to
this final rule (FAA-S-ACS-8B) considers the LPV approaches to be non-
precision if the Decision Altitude (DA) is more than 300 feet and
precision if the DA is less than 300 feet. The ARAC ACS WG stated that
the Instrument Rating--Airplane ACS set forth with the NPRM to this
final rule (FAA-S-ACS-8C) does not address LPV as in the past and
sought confirmation as to whether this change was intentional. The FAA
notes that it made this change intentionally to align the Instrument
ACS with the criteria in Advisory Circular (AC) 90-107, Guidance for
Localizer Performance with Vertical Guidance and Localizer Performance
without Vertical Guidance
[[Page 22497]]
Approach Operations in the U.S. National Airspace System. Because a
precision approach includes any approach flown to a DA with approved
vertical guidance, the FAA removed the 300 feet height above touchdown
(HAT) in all category Instrument ACS and the Flight Instructor--
Instrument ACS, as criteria to determine whether an RNAV (RNP) or RNAV
(GPS) approach with LPV published minimums could count as a precision
approach during a practical test. Appendix 3: Aircraft, Equipment, and
Operational Requirements & Limitations for Precision Approach, states
that an applicant must accomplish a precision approach to the decision
altitude (DA) using aircraft navigational equipment for centerline and
vertical guidance and that precision approach is a standard instrument
approach procedure to a published decision altitude using provided
approved vertical guidance.
vii. Private Pilot PTS
One commenter suggested including elements in the Private Pilot PTS
on the subject area of knowledge and proficiency in conducting a post-
flight self-review. The commenter contended that post-flight self-
checks are important for continued improvement and should include
knowledge and proficiency in National Aeronautics and Space
Administration (NASA) Aviation Safety Reports, NTSB accident reports,
and how the FAA WINGS program can help applicants with improving and
maintaining knowledge, skills, and proficiency. The FAA encourages
pilots at all levels to continually evaluate their performance before,
during, and after any flight operation, but notes that making a post-
flight review part of the practical test could affect the post-flight
task in all ACS and PTS documents. The FAA also describes a post-flight
analysis in the Pilot's Handbook of Aeronautical Knowledge, FAA-H-8083-
25, which states, ``when you have safely secured the airplane, take the
time to review and analyze the flight as objectively as you can.
Mistakes and judgment errors are inevitable; the most important thing
is for you [pilot applicant] to recognize, analyze, and learn from them
before your next flight.'' This does not prevent a pilot from using
additional means of research and resources during their analysis.
However, the FAA does not test an applicant's ability to conduct a
post-flight self-evaluation at the conclusion of any practical test.
The FAA requires the evaluator to perform a post-flight briefing of the
applicant's performance.\60\ Therefore, adding a standard for an
applicant to conduct a post-flight self-assessment, review of aviation
safety reporting, or search of the NTSB database would be superfluous
to the responsibilities of an evaluator.
---------------------------------------------------------------------------
\60\ See FAA Order 8900.1, Volume 5, Chapter 2, Section 1,
Paragraph 5-222.
---------------------------------------------------------------------------
2. Specific ACS Comments
i. FAA-S-ACS-11A, ATP and Type Rating for Airplane ACS, November 2023
As part of FSI's broader notation that the ACS in general should
align as much as possible in structure, content, layout, and tasks, FSI
suggested a number of specific revisions to the ATP and Type Rating for
Airplane ACS (referred to as the ATP Airplane ACS for purposes of this
section) to encourage uniformity. First, FSI commented that the ATP
Airplane ACS does not contain a Removal of VFR Type Rating table while
the Powered-Lift ATP ACS does. The FAA notes that the Airplane ATP ACS
includes a type rating limited to VFR table for a type rating practical
test conducted in aircraft not capable of instrument flight. No table
exists for testing to remove this specific limitation as the specific
airplane type does not have IFR capability. On the contrary, powered-
lift that are capable of instrument maneuvers and procedures present a
situation that differs from other categories of aircraft because the
FAA has not previously required a type rating for each type of aircraft
that falls within a broad category of aircraft. Therefore, the Powered-
Lift ATP ACS includes a VFR only table for the purposes of initial
certification to coincide with the Powered-Lift NPRM (as previously
discussed) that proposes a Special Federal Aviation Regulation (SFAR)
for alternate eligibility requirements to safely certificate initial
groups of powered-lift pilots. As a result, the ACS documents cannot
succinctly align regarding the Removal of VFR Type Rating Table.
FSI also suggested adding flightdeck management to the Airplane ATP
ACS for uniformity of content. The FAA notes that the ATP Airplane ACS
currently encompasses the flightdeck management concept and includes it
throughout the ACS. Examples of flightdeck management are: AOO II, Task
C, K6, which requires applicants to demonstrate understanding of
appropriate flightdeck activities prior to taxi and AOO I Task E, Air
Carrier Operations, which requires applicants to exhibit the skill to
apply crew resource management (CRM) principles in a crew environment.
As a result, the FAA is not amending the Airplane ATP ACS, as the
flightdeck management concept is already present.
One commenter asked for clarification in appendix 3 of the ATP
Airplane ACS, specifically pertaining to AOO V., Stall Prevention.
Within Tasks A, B, and C, the appendix states that when accomplished in
a flight simulation training device (FSTD), stall entries should be
consistent with the expected operational environment for a stall in
cruise flight with no minimum entry altitude defined. The commenter
inquired whether ``expected operational environment'' means something
similar to a scenario-based event or actually performing the stall
event at the location and operation of flight where the stall would
occur (e.g., from the landing configuration stall at the minimum
descent altitude for a non-precision approach in IMC conditions). The
FAA notes that air agencies and air carriers using FSTDs train stall
recovery procedures using realistic scenarios that have no need to meet
the altitude recovery limits that apply to practical tests conducted in
an actual airplane. Therefore, the note in the appendix simply allows
for scenario-based testing of the stall prevention task using an FSTD
that mimics real world experiences in an operational environment (e.g.,
weather, airspace, hazards, etc.) to meet the flight testing objectives
without an altitude limitation. In other words, the evaluator should
design the scenario such that the stall prevention occurs at a point
that provides realistic testing.
The same commenter noted the ATP Airplane ACS appendix 3 contains
information pertaining to a part 25 or Sec. 23.3(d) commuter
multiengine airplane. The commenter noted that 14 CFR 23.3 is an
obsolete regulation. The FAA agrees; however, air carriers and
operators still use aircraft certificated under the obsolete regulation
and the statement applies to those aircraft. The FAA modified the
sentence to clarify that these airplanes were certificated as commuter
multiengine airplanes under 14 CFR part 23, historical Sec.
23.3(d).\61\
---------------------------------------------------------------------------
\61\ 14 CFR 23.3(d) provided that the commuter category is
limited to multiengine airplanes that have a seating configuration,
excluding pilot seats, of 19 or less, and a maximum certificated
takeoff weight of 19,000 pounds or less. The commuter category
operation is limited to any maneuver incident to normal flying,
stalls (except whip stalls), and steep turns, in which the angle of
bank is not more than 60 degrees. In 2016, part 23 was reorganized
pursuant to the Small Airplane Revitalization Act of 2013 (Pub. L.
113-53, 49 U.S.C. 44704 note), resulting in the relocation and
revision of Sec. 23.3(d). See Revision of Airworthiness Standards
for Normal, Utility, Acrobatic, and Commuter Category Aircraft final
rule, 81 FR 96572 (Dec. 30, 2016).
---------------------------------------------------------------------------
[[Page 22498]]
A commenter suggested using ``must'' instead of ``shall'' in
appendix 1 of the ATP Airplane ACS (which would result in a change to
all ACS as boilerplate language). The FAA acknowledges that FAA Order
1000.36 (FAA Writing Standards) advises against the use of ``shall''
and recommends the use of ``must'' to impose requirements. The FAA
retained the use of ``shall'' in this single instance and notes that it
has the meaning set forth in 14 CFR 1.3.\62\ Consistent with that
meaning, its use constitutes a requirement for examiners.
---------------------------------------------------------------------------
\62\ Under FAA's rules of construction in 14 CFR 1.3, the term
``shall'' is used in the imperative sense meaning it is a directive
or command.
---------------------------------------------------------------------------
ii. FAA-S-ACS-17, ATP and Type Rating for Powered-Lift ACS, November
2023
As previously noted, FSI suggested that the content of the ATP ACS
for airplane, helicopter, and powered-lift should align as much as
possible and, specifically, include second-in-command (SIC) in appendix
1 of the ATP and Type Rating for Powered-Lift ACS (referred to as the
ATP Powered-Lift ACS for purposes of this section). While the FAA is in
favor of uniformity where appropriate, in this case, the ACS are
intentionally designed to be different. The Airline Transport Pilot and
Type Rating for Airplane Category ACS specifically addresses a
``Second-In-Command Required'' Limitation that is specific to aircraft
that allow for a pilot flight crew compliment of single or dual crew as
required by Sec. 61.43(b). This table is not applicable to powered-
lift aircraft at this time and therefore not listed in appendix 1 of
the ATP and Type Rating for Powered-Lift ACS.
FSI suggested the inclusion of an Air Carrier Operations Task in
the ATP Powered-Lift ACS, specifically in AOO I (Preflight
Preparation), stating that operators plan to use powered-lift in part
135 operations and most of the knowledge tasks apply to obtaining an
ATP certificate in powered-lift. While the FAA understands FSI's
reasoning for seeking addition of this task to the powered-lift ACS,
the FAA first notes that the air carrier operations task was derived
from Public Law 111-216, section 217, to apply to airplane multi-engine
operations, specifically. Because the task is narrowly tailored to a
different aircraft, the FAA requires additional operating information
pertaining to powered-lift before analyzing the applicability of the
task into the ATP Powered-Lift ACS. Additionally, powered-lift
operations are not yet envisioned for part 121 air carriers. To
mitigate the safety risk in part 135 operation, the FAA relies jointly
on (1) practical testing with the use of the ACS and incorporation of
part 135 regulations (e.g., AOO I, Task E; AOO II, Task A) and (2) the
approved part 135 training and checking programs, contemplated by the
powered-lift NPRM and forthcoming final rule (as previously discussed).
As industry expands into part 121 operations and the FAA garners the
requisite information on powered-lift air carrier operations, the FAA
may consider adding an Air Carrier Operations Task to the ATP Powered-
Lift ACS similar to that in the ATP Airplane ACS.
The ARAC ACS WG commented that the Steep Approach Task and other
Tasks specific to landing set forth in the ATP Powered-Lift ACS exist
in the Private and Commercial Powered-Lift ACS, and the FAA should not
test the same Tasks at the ATP and Type Rating level because it creates
redundant testing. The FAA notes that there are some tasks throughout
certificate levels that require duplicate testing. Due to the array of
differing characteristics and capabilities of aircraft being pursued by
industry, as well as pending airman certification pathways, the FAA
continues to require these crucial approach and landing maneuvers in
each respective certificate level at this time.
FSI made several discrete points suggesting the FAA reorganize the
ATP Powered-Lift ACS to align with the ATP Airplane ACS or for
preferred categorization under an AOO.\63\ Some of these suggestions
included removing AOO VI (Landings and Approaches to Landings),
consolidating landing and hover tasks within AOO III (Takeoffs and
Landings), and retitling requisite AOOs to mirror those ATP Airplane
AOOs. The FAA notes this would require a substantial overhaul to
include removing, consolidating, and reorganizing both AOOs, tasks, and
elements. Changes of this nature would also require further revisions
to regulatory text within Sec. 61.157 to align the AOOs. The unique
characteristics of airplanes, rotorcraft, and powered-lift, which
differ as independent categories of aircraft, require varied AOOs and
tasks for airman certification purposes. While the FAA recognizes a
desire to have the ACS as uniform as possible across categories and
classes of aircraft, the FAA does not find it feasible from an
efficiency or safety perspective to overhaul the Powered-Lift ACS as
proposed.
---------------------------------------------------------------------------
\63\ The FAA notes that FSI also made several suggestions to the
commercial ACS with this same rationale. This section generally
responds to the breadth of uniformity concerns.
---------------------------------------------------------------------------
Joby remarked that some elements are inconsistent between the ATP
Powered-Lift ACS and other ACS documents. Joby questioned why the
battery used for propulsion element was only in the ATP Powered-Lift
ACS. The FAA notes that the knowledge element ``Battery(s) used for
propulsion-charging, discharging, and condition, as applicable'' is
appropriate for testing at most levels of airman certification for
powered-lift and, therefore, added it to the final Private, Commercial,
and Flight Instructor ACS.\64\ Adding this element provides the level
of detail needed to adequately evaluate an applicant's knowledge of
this unique topic as this relates to the necessity of electrical energy
storage or devices that generate energy for propulsion specific to some
powered-lift aircraft and otherwise would not be adequately examined
prior to reaching the ATP certificate level. The FAA did not add this
element to the Instrument or the Flight Instructor--Instrument ACS as
those documents focus on aircraft systems related to instrument flight,
as do the other Instrument ACS. In the building block approach to pilot
certification, these items would be covered in prior testing (e.g., at
the private and/or commercial level).
---------------------------------------------------------------------------
\64\ This element is in AOO I, Task G. Operation of Systems in
the Private and Commercial Powered-Lift ACS and under AOO II, Task
E. Flight Controls and Systems in the Flight Instructor ACS.
---------------------------------------------------------------------------
Additionally, Joby also questioned why distractions, task
prioritization, loss of situational awareness, and disorientation were
excluded from several tasks. The FAA did not add the risk management
element pertaining to the identification, assessment, and mitigation of
distractions, task prioritization, loss of situational awareness, or
disorientation to each risk management section of the ATP Powered-Lift
ACS. The FAA intentionally assigned that element where appropriate
throughout the ATP Powered-Lift ACS. The FAA does not use identical and
redundant language in each risk management section in an effort to
better highlight applicable elements related to distraction in context.
This is done to tailor the possible risks to the task rather than
facilitate redundancy. For example, some risk management elements
include ``passenger distractions'' or ``division of attention.''
Furthermore, Joby also questioned whether ``coordinate with crew,
as
[[Page 22499]]
applicable,'' and ``use SRM or CRM, as appropriate'' were synonymous,
as Joby noted inconsistency when one element appeared in some skills
but both elements appeared in other skills. The FAA notes the skill
element referred to in these tasks specify ``coordinate with crew, if
applicable, and complete the appropriate checklist(s) in a timely
manner'' and ``[u]se single-pilot resource management (SRM) or crew
resource management (CRM), as appropriate.'' The FAA does not find
these two skill elements are intended to be synonymous. The first skill
element described is specific to the responsibility of checklist usage,
while the following skill is specific to SRM or CRM principles, which
includes the effective use of all available resources.
Finally, Joby suggested that AOO I, Preflight Preparation, Task E,
The Code of Federal Regulations, should apply to all applicants for
type ratings, not only be tested during ATP certificate tests. The FAA
did not make this change, as the type rating test focuses more on the
unique aspects of the specific aircraft type to ensure a person is
qualified to act as PIC of that type of aircraft. Additionally, the FAA
seeks to reduce redundancy of testing over basic elements. This matches
the expectations set forth in the ATP and Type Rating Airplane ACS.
iii. FAA-S-ACS-2, Commercial Pilot for Rotorcraft Category Helicopter
Rating ACS, November 2023
Members of the ARAC Helicopter ACS WG and U.S. Helicopter Safety
Team collectively submitted comprehensive comments to the Commercial
Pilot for Rotorcraft Category Helicopter Rating ACS, some of which were
echoed by GAMA.\65\ The group summarized their efforts to draft the
helicopter ACS to include advancements in aircraft equipment and
avionics and expressed concern that the drafts submitted to the FAA did
not resemble the drafts that accompanied the NPRM. The FAA duly
considered the group's comments and underscores its appreciation to the
ARAC ACS WG for their work to continually improve and update the ACS in
collaboration with the FAA. As explained in this section, the FAA did
not implement some of the suggested changes. However, the table
contained in section IV.D. of this preamble illustrates those changes
that the FAA felt appropriate to make at this time.
---------------------------------------------------------------------------
\65\ The group, which includes the ARAC Helicopter ACS WG, U.S.
Helicopter Safety Team, and GAMA, noted that their comments
highlight only the Commercial Pilot Rotorcraft Category, Helicopter
Class ACS, but that many of their comments could apply to the
Private Pilot Rotorcraft Category, Helicopter Class ACS as well.
Because the comments specifically addressed the Commercial ACS, the
FAA responded to the comments in the commercial context.
---------------------------------------------------------------------------
One prominent comment by the group detailed the four additional
maneuvers developed by the ARAC ACS WG for their draft commercial
helicopter test to ensure the commercial test is more in-depth than the
private test: (1) advanced autorotations, (2) flight solely by
reference to instruments, (3) recovery from unusual attitudes, and (4)
hover out-of-ground effect. The group acknowledged the FAA's addition
of unusual attitude recoveries (AOO VII, Task L) as proposed in the
FAA's draft ACS. The FAA notes that the Commercial Helicopter ACS
adopted in this final rule includes the group's suggested task of
flight solely by reference to instruments, as subsequently discussed.
This section also contains discussion on the FAA's decision at this
time to exclude the two remaining tasks.
Foreword and Appendices. First, the group noted that the foreword
in the ACS gives little explanation about the ACS, which it considers
significant because the majority of the helicopter community will be
transitioning from the PTS testing format to the ACS. Additionally, the
group noted that certain appendices have been eliminated, namely the
References (formerly appendix 9) and Abbreviations and Acronyms
(formerly appendix 10). The FAA did not eliminate this information but
simply relocated it. Interested parties can find more information about
the use of the ACS within the ACS Companion Guide for Pilots, as well
as numerous resources provided by the FAA on the FAA's Airman
Certification website.\66\ Additionally, the Abbreviations and Acronyms
appendix was relocated to section 6 of the ACS Companion Guide for
Pilots, and conforming revisions were made within the ACS to ensure
consistency in abbreviation and acronym usage. Further, rather than a
single page of references for each ACS, the entire set of references
moved to section 5 of the ACS Companion Guide for Pilots.
---------------------------------------------------------------------------
\66\ Airman Certification Standards [verbar] Federal Aviation
Administration (faa.gov).
---------------------------------------------------------------------------
Area of Operation II (Preflight Procedures). The group stated that
the skill element within Task D (Before Takeoff Check) requiring an
applicant to maintain powerplant and main rotor speed (Nr) within
normal limits is nonsensical because the aircraft is not flying during
this Task. The FAA notes the Task requires the applicant to first
perform the ``Complete the appropriate checklist(s)'' skill element,
which includes setting and maintaining the power and main rotor speed
within normal limits per the manufacturer's POH or RFM, prior to the
helicopter becoming airborne. Therefore, this skill element is feasible
for pre-takeoff activity, and the FAA kept the skill element.
Helicopters may maintain power and rotor speed in different ways while
on the ground and prior to takeoff. In some aircraft, the pilot manages
the powerplant and main rotor speed operational limits through throttle
manipulation. Some manufacturers will require the pilot to increase
throttle to the normal operational range and manually maintain those
parameters. Some helicopter manufacturers' ``before takeoff
checklists'' include the pilot setting the throttle to the normal
operating position and then the aircraft maintains the normal operating
limitations while the pilot monitors those parameters in the event
conditions require intervention. As part of the before takeoff
sequence, pilot responsibility includes maintaining the powerplant and
main rotor speeds within the normal operating limits regardless of the
design features of the helicopter. Further, the inadequate management
of powerplant and main rotor normal operating limits prior to takeoff
could result in aircraft damage (i.e., powerplant and main rotor
overspeed).
Area of Operation IV (Hovering Maneuvers). The group suggested that
various hovering maneuvers should exclude the requirement for an
applicant to complete the appropriate checklist because there are
hovering maneuvers where checklists do not exist. The group stated
that, in turn, this makes the skill superfluous and broad. The FAA
retained the skill element of completing the appropriate checklist in
the adopted ACS since a practical test determines an applicant
possesses the skill to perform all Tasks without missing critical
steps. The FAA recognizes that, in certain situations, the helicopter
pilot may not have time to review the checklist immediately due to the
complexity of the helicopter or the maneuver, or a checklist may not
correspond to a particular maneuver in real operations. For this
reason, the ACS uses the modifier ``appropriate'' within the skill
element.
Area of Operation V (Takeoffs, Landings, and Go-Arounds). The group
noted that the FAA used the title ``Maximum Performance Takeoff and
Climb'' rather than ``Advanced Takeoff Profile and Climb,'' as set
forth in the group's draft. The group stated that
[[Page 22500]]
maximum power is not required and the Helicopter Flying Handbook allows
for different climb profiles, which seems better embodied by the title
set forth by the group. The FAA notes that the skill elements within
this Task do not require the applicant to use maximum power, but the
takeoff power necessary, or power as specified by the evaluator to
maximize the takeoff performance and safely complete the Task. Pilots
must take operational considerations into account to minimize the risk
of exposure in the H/V diagram when clearing obstacles. The FAA did not
implement the change to the term ``advanced'' as this may minimize the
risk that applies to similar Tasks and the FAA kept the Task title as
published in the NPRM.
Area of Operation VI (Performance Maneuvers). First, the group
noted that a study conducted by the U.S. Helicopter Safety Team
reported that 30% of helicopter training accidents occur in practice
autorotations. Therefore, the group emphasized that the FAA should
adequately update and address corresponding autorotation training in
the Helicopter ACS, whether in the tasks themselves or in the
appendices. The group stated that elements within the Straight-In
Autorotation in a Single Engine Helicopter require refinement for
safety purposes. Specifically, the group noted that the Helicopter
Flight Manual defines a straight-in autorotation as not having any
turns; however, the elements under this task imply turns are necessary
to avoid undershooting or overshooting. The group urged the FAA to
correct this inconsistency by revising the title of the Task to ``Basic
Autorotation'' and eliminating certain turning and accuracy skills.
The FAA agrees that AOO VI, Performance Maneuvers, Task B,.
Straight-In Autorotations in a Single-Engine Helicopter, describes an
autorotation made from altitude with no turns. The Helicopter Flying
Handbook includes several factors that affect the rate of descent in
autorotations, including bank angle, density altitude, gross weight,
rotor RPM, trim condition, and airspeed. It further details the primary
ways to control the rate of descent including airspeed and rotor
RPM.\67\ The term ``maneuver'' may refer to banking or turning and
would also include pitch attitude adjustments for airspeed changes to
avoid undershooting or overshooting. The FAA agrees that straight-in
autorotation entry location and altitude should set task tolerances so
the applicant can arrive at the chosen termination point without
requiring turning techniques. For clarity, the FAA changed the skill
element to remove the word ``maneuver,'' and replaced it with the
language proposed in the ARAC ACS WG's Commercial Helicopter draft that
stated, ``Compensate for wind speed and direction as necessary to avoid
undershooting or overshooting the selected landing area.'' The FAA
applied this change to the Private Pilot and Flight Instructor
Helicopter ACS for consistency. Further, the FAA maintains the term
Straight-in Autorotation describes the autorotation set forth by the
elements within the Task most accurately and did not adopt the change
to the task name as suggested.
---------------------------------------------------------------------------
\67\ FAA-H-8083-21B, Helicopter Flying Handbook (2019), Chapter
11: Helicopter Emergences and Hazards (p. 11-2).
---------------------------------------------------------------------------
Next, the ARAC ACS WG stated that the Autorotation with Turn Task
should test an applicant's ability to make an autorotation with a 90-
to-180-degree turn. The group asserted that, while the Helicopter
Flying Handbook and ACS as proposed with the NPRM uses the term
``Autorotation with Turn,'' the Handbook defines the most common turns
in an autorotation as 90 degrees and 180 degrees. The group notes that
ACS proposed in the NPRM requires a turn of 180[deg], not 170[deg] or
160[deg], which would be within the parameters of the Handbook's
definition of most common autorotation. The group stated that a larger
margin is necessary where the Handbook provides a broader range of
common autorotations, especially to account for crosswind or ATC
corrections and considerations.
The FAA disagrees and notes the applicant may demonstrate an
autorotation with turns with either two 90-degree turns in the same
direction or one continuous turn of 180 degrees. The Helicopter Flying
Handbook generally states the most common types of autorotations as 90-
degrees and 180-degrees in the context of two turning options but
describes the technique with a 180-degree turn.\68\ The FAA expects the
applicant to demonstrate the ability to turn the helicopter and
complete the maneuver on a reciprocal track from the entry direction.
This allows for wind corrections or other considerations to align the
helicopter with the intended track to the landing area. To provide
clarity, the FAA removed the note from the Autorotation with Turns Task
and revised the corresponding language in appendix 3 of the ACS (as
well as in the Private Pilot and Flight Instructor Helicopter ACS,
where this issue would also apply). The ACS appendix 3 language
explains that the 180-degree turn refers to a change in direction with
respect to ground track, and not an exact reciprocal heading, which
should account for the group's concerns regarding variations in the
exact amount of turning on this task.
---------------------------------------------------------------------------
\68\ FAA-H-8083-21B, Helicopter Flying Handbook (2019), Chapter
11: Helicopter Emergences and Hazards (p. 11-6).
---------------------------------------------------------------------------
Next, the group expressed concern that certain tasks pertaining to
autorotations are only tested for those persons who bring a single-
engine helicopter to the practical test. The group commented that, if
an applicant brings a multiengine helicopter to the practical test,
they should have trained and tested autorotations in a multiengine
helicopter. The group compared the requisite civilian training with
that of the United States Army, explaining that military primary
training requires power recovery autorotations in the twin engine UH-
72.
The FAA notes that autorotations in multiengine helicopters present
unnecessary risk. Civilian pilots do not perform autorotations in
multiengine helicopters during practical tests due to the powerplant
redundancy and the remote likelihood of a dual engine failure in
civilian operations. The FAA applies similar logic in multiengine
airplane practical testing, where an applicant is not required to
simulate failure of all engines. While the FAA does not differentiate
between single and multiengine helicopter class, because the
autorotation tasks are an integral piece of the practical test and will
not be performed in a multiengine helicopter, an applicant who does
bring a multiengine helicopter for a practical test would be required
to provide a single-engine helicopter to demonstrate the autorotation
Tasks, as detailed in appendix 3 of the Helicopter ACS.
The ARAC ACS WG commented that the FAA did not add the group's
suggested Advanced Autorotation Task to the Commercial Pilot Helicopter
ACS. The ARAC ACS WG noted that they referenced Special Federal
Aviation Regulation (SFAR) No. 73,\69\ enhanced training in
autorotation procedures flight training requirement to create their
proposed enhanced autorotations Task. The group explained that the
Task, titled Advanced Autorotation, would incorporate the ability to
use a variety of techniques to maneuver the helicopter in an
autorotation to a specific landing area. The FAA notes
[[Page 22501]]
SFAR No. 73 requires specific pilot training, in addition to the
requirements of part 61, to respond to the high number of accidents
involving Robinson model R-22 and R-44 helicopters. However, the FAA
does not purport to write testing standards for airman certificates and
ratings for a specific make and model of aircraft. Furthermore,
elements from the advanced autorotation concept are inherently
incorporated into AOO VIII., Emergency Operations, Task B. Powerplant
Failure at Altitude in a Single-Engine Helicopter. This task includes
skill elements such as maneuvering to avoid undershooting or
overshooting the selected landing area, which encompasses autorotation
airspeed and rotor RPM combinations as dictated in the RFM for the
aircraft used and can include varying bank angle. Therefore, the FAA
did not add the Advanced Autorotation task at this time.
---------------------------------------------------------------------------
\69\ SFAR No. 73 was adopted in 1995 (60 FR 11254) to establish
special training and experience requirements for pilots operating
the Robinson model R-22 and R-44 helicopters in response to the
number of accidents involving these models.
---------------------------------------------------------------------------
Area of Operation VIII (Emergency Operations). As previously
mentioned, the group proposed to include additional Tasks in the draft
ACS submitted to the FAA. Specifically, the group stressed that
inadvertent IMC accidents are a major cause of helicopter fatalities
and developed two corresponding Tasks to include in the Commercial
level ACS: (1) Flight Solely by Reference to Instruments and (2)
Recovery from Unusual Flight Attitudes. The Commercial ACS accompanying
the NPRM only included the Recovery from Unusual Flight Attitudes Task,
which the group noted was nonsensical to include, given the exclusion
of the Flight Solely by Reference to Instruments Task. The group
described a safety concern where an evaluator may ask the applicant to
perform an unusual attitude recovery without knowing if the applicant
could even fly straight and level under the hood.
Upon review, the FAA agrees with the group regarding the
relationship between the Flight Solely by Reference to Instruments Task
and the Recovery from Unusual Flight Attitudes Task and added the
Flight Solely by Reference to Instruments Task to the Commercial
Helicopter ACS (as well as the Flight Instructor Helicopter ACS). The
FAA concurs that this Task allows evaluators an opportunity to assess
an applicant's ability to control the helicopter by reference to
instruments before the demonstration of the recovery from unusual
flight attitudes Task. The Task provides a safety benefit for those
applicants demonstrating the recovery and results in a de minimis
addition to the practical test such that it would not substantially
expand the envelope of the training and testing.
Miscellaneous. Finally, the group commented that the FAA should
have included a Hovering Out of Ground Effect (OGE) Task, developed by
the group, for the Commercial Helicopter ACS. The group supported this
contention by explaining that commercial pilots generally need to hover
OGE in commercial operations, are not taught or tested how to do it,
and end up teaching themselves the requisite skills. The group also
stated that the importance of performance planning, potential risks,
and specific techniques for this maneuver are lost. The group stated
that this maneuver occurs in commercial operations, which would
indicate that an operator or air carrier could include it in an
approved training program, where training tailored for a specific
operation may occur. The FAA notes that AOO I, Preflight Preparation,
Task F, Performance and Limitations, covers the type of performance
planning that would apply to OGE hover. As a result, the FAA would rely
on this task, as well as the part 121 and/or 135 approved training
programs, to cover this, and did not include this task in the
Commercial Helicopter ACS.
iv. FAA-S-8081-18A, Commercial Pilot PTS for Lighter-Than-Air Category,
November 2023
One commenter recommended two revisions to the Commercial Pilot PTS
for LTA Balloon. Specifically, within AOO VIII, Performance Maneuvers,
the commenter questioned why Task F, High Altitude Flight (LBG),\70\
only applies to gas balloons (as indicated by the parenthetical LBG
within the ACS) since balloons with airborne heaters (``hot air
balloons'') can also achieve high altitudes. The commenter further
supported the expansion of Task G, Obstacle Avoidance (LBH), and Task
H, Tethering (LBH), from balloons with airborne heaters to gas balloons
since those types of balloons also avoid obstacles and tether.
---------------------------------------------------------------------------
\70\ LBG stands for Lighter-Than-Air, Balloon (Gas); LBH stands
for Lighter-Than-Air, Balloon (with Airborne Heater).
---------------------------------------------------------------------------
The FAA notes that balloon pilot certificates are issued with a
limitation for either airborne heater or gas.\71\ Traditionally, gas
balloons operate at altitudes above most obstacles, while balloons with
airborne heaters typically operate closer to terrain. Gas balloons
tether as a part of the inflation process, which is captured in AOO V,
Task E Inflation, unlike balloons with airborne heaters, where they
tether for the purpose of multiple ascents and descents. Therefore, due
to the low occurrence of obstacle avoidance and tethering functions in
gas balloons, the FAA sees no reason to expand these testing areas to
gas balloons. Likewise, while the FAA tests the high-altitude task for
gas balloons only, the FAA notes that pilots may fly balloons with
airborne heaters at high altitudes. The elements of high-altitude
flight for balloons with airborne heat is captured in the AOO III in
Preflight Preparation, and AOO VIII, Task J Mountain Flying. The FAA
finds, given the predominant operational footprints for gas balloons
and balloons with airborne heaters, expanding these testing areas to
all balloon applicants is not necessary to determine the proficiency to
act as PIC.
---------------------------------------------------------------------------
\71\ See 14 CFR 61.115 and 61.133(b). For both the private and
commercial certificate level, the limitation may be removed when the
person obtains the required aeronautical experience in the balloon
comprising the limitation and receives a logbook endorsement from an
authorized instructor attesting to the accomplishment of such
experience and ability to satisfactorily operate that sort of
balloon.
---------------------------------------------------------------------------
v. FAA-S-ACS-25, Flight Instructor for Airplane Category ACS, November
2023
One commenter stated that weather knowledge and understanding is
poor among many pilots, including flight instructors, and it is vital
for safety for pilots to adequately understand this subject area. The
commenter specifically noted that the Flight Instructor Airplane ACS
requires the evaluator to select only three sub-elements from K2 or
three sub-elements from K3 within AOO III, Preflight Preparation, Task
C, Weather Information.\72\ The commenter recommended an increase of
elements for K2 to include all sub-elements and for K3 to include at
least 5 sub-elements. The FAA notes it did not change the requirements
within this Task because the sub-elements simply set a minimum standard
that the evaluator must select ``at least'' three sub-elements.
Evaluators should ask more than the minimum weather elements if needed
to determine that the applicant possesses the required knowledge
pertaining to weather information within the AOO. This minimum
requirement does not restrict the evaluator from selecting additional
elements but rather provides flexibility when an applicant demonstrates
satisfactory knowledge of that Task. Additionally, evaluators may
question applicants on weather information
[[Page 22502]]
during various Tasks throughout the ACS (e.g., National Airspace System
within Technical Subject Areas, Preflight Assessment within Preflight
Procedures) to ensure that an applicant possesses the requisite
knowledge and skill pertaining to weather information outside of those
sub-elements within the singular Task C.
---------------------------------------------------------------------------
\72\ For reference, AI.III.C.K2 is acceptable weather products
and resources required for preflight planning, current and forecast
weather for departure, en route, and arrival phases of flight;
AI.III.C.K3 is meteorology applicable to the departure, en route,
alternate, and destination under VFR in VMC, including expected
climate and hazardous conditions.
---------------------------------------------------------------------------
One commenter suggested removing many of the risk management
elements in the Fundamentals of Instructing (FOI) AOO of the Flight
Instructor Airplane ACS (AOO I), stating that Task F, Elements of
Effective Teaching that Include Risk Management and Accident
Prevention, sufficiently covers all risk management for this AOO.\73\
Additionally, the commenter suggested revising the skill elements in
the FOI AOO to set forth a single skill element for each of the six FOI
Tasks. The FAA notes the risk management elements outside of Task F,
which include tasks associated with human behavior and communication,
the learning process, course development, and student assessment,
remain unchanged from the proposed ACS. These risk management areas
associated with the other Tasks are necessary to evaluate the overall
effectiveness of an instructor. Additionally, the FAA did not combine
any skill elements within the FOI AOO in the adopted final draft of the
ACS due to the itemization of testing codes, which the FAA discusses
further in section IV.C. of this preamble.
---------------------------------------------------------------------------
\73\ The risk management element in Task F requires the
applicant to identify, assess, and mitigate risk associated with
hazards associated with providing instruction, obstacles to
maintaining situational awareness during flight instruction, and
recognizing and managing hazards arising from human behavior,
including hazardous attitudes.
---------------------------------------------------------------------------
The ARAC ACS WG commented that all tasks and elements should be
focused on teaching and application of FOI. Specifically, the group
stated that some of the tasks have skill elements that state ``deliver
instruction,'' others say ``teach,'' others have neither, and the FAA
should revise for consistency throughout. The groups suggested revising
the stem of the skill elements to state that the applicant demonstrates
the ability to either (1) deliver instruction ``by teaching how to:''
or (2) ``apply learning theories, communication techniques, teaching
methods, and learning assessment while:'' and then list the skill
elements and revise as needed to complete the statement. The FAA notes
that a Flight Instructor ACS generally uses skill lead-ins that include
demonstration and explanation as opposed to performance alone. However,
in certain cases, if skill elements specifically mention teaching or
demonstration, the FAA chose a shorter lead-in to avoid redundancy. For
example, one skill element AOO X, Task G, Elevator Trim Stall
Demonstration uses the lead-in, ``The applicant exhibits the skill to:
describe and demonstrate conditions that lead to an elevator trim stall
for future avoidance.'' If using the common instructor skill lead-in,
the skill would read, ``The applicant demonstrates and simultaneously
explains how to: describe and demonstrate conditions that lead to an
elevator trim stall for future avoidance.'' As indicated above, the FAA
believes that this suggestion is already incorporated in the ACS
document and no further modifications are needed.
The ARAC ACS WG suggested limiting demonstration of flight
characteristics at various configurations and airspeeds (AOO X, Task B)
to ASEL and ASES aircraft only because the task elements were not
created to mimic the demonstration of effects of various airspeeds and
configurations during one-engine inoperative performance (AOO XII, Task
C), which is only applicable to AMEL and AMES. The FAA agrees with the
ARAC ACS WG's rationale, and the ACS adopted with this final rule
reflects AOO X, Task B, as applicable to ASEL and ASES only.\74\
Specifically, the FAA adjusted a global note, which sets forth the
Tasks required to be tested in AOO X, to remove Task B as a requirement
for multiengine applicants. As an outgrowth of this adjustment, the FAA
added skill sub-elements to the corresponding multiengine skill element
referenced by the ARAC ACS WG (i.e., Task C of AOO XIII) to communicate
the expectations for demonstrating smooth control inputs when
transitioning between various airspeeds and configurations.\75\
---------------------------------------------------------------------------
\74\ AMEL stands for Airplane Multiengine Land; AMES stands for
Airplane Multiengine Sea; ASEL stands for Airplane Single-Engine
Land; ASES stands for Airplane Single-Engine Sea.
\75\ These sub-elements include demonstrating the skill with
landing gear extended, wing flaps extended, landing gear and wing
flaps extended, and windmilling propeller on the inoperative engine.
---------------------------------------------------------------------------
The ARAC ACS WG requested revisions to Sec. 61.187 (specifically,
Sec. 61.187(b)(1) and (2)) to exactly align this regulation with the
AOOs in the ACS. The FAA did not revise Sec. 61.187(b) in this final
rule. For efficiency, the ACS combined the performance maneuver and
ground reference AOOs in Sec. 61.187 and the multiengine operations
appears in the ACS generally (with a designator that the Tasks within
the AOO apply only to multiengine practical tests), rather than
separate ACS per class of airplane. Because the ACS applies to both
single-engine (Sec. 61.187(b)(1)) and multiengine (Sec.
61.187(b)(2)), the ACS account for both sets of AOOs in cohesion with
the regulations.
The ARAC ACS WG commented that the use of the asterisk in the added
rating tables was not clear, and the FAA should use ``ALL'' in its
place. The FAA disagrees, as use of the word ``ALL'' implies that the
applicant would complete all the Tasks in the area of operation in the
Instructor--Airplane ACS, which would exceed the Tasks required for the
initial rating. The asterisk requires the evaluator to apply at least
the required number of Tasks as listed in the Flight Instructor
Airplane ACS for an added rating as those required for an initial
instructor--airplane rating.\76\
---------------------------------------------------------------------------
\76\ The asterisk designation is important in the added ratings
tables for ACS documents that do not require all tasks to be
completed. Each AOO and/or task has a note identifying the
requirements. The asterisk directs the evaluator to review the note
and test accordingly. If ``ALL'' was listed on the added ratings
table, then all tasks within the AOOs would be required. As a
result, the practical test for an added rating would be more
restrictive and burdensome than the initial practical test for that
certificate or rating.
---------------------------------------------------------------------------
The ARAC ACS WG stated that the Note on AOO II, Technical Subject
Areas, Task A, Human Factors, should require the evaluator to assess
half the sub-elements and that testing on all sub-elements is
excessive. Appendix 1 of each ACS indicates that, if a knowledge
element includes sub-elements, the evaluator may choose the primary
element and select at least one sub-element to satisfy the requirement,
unless otherwise noted in a specific Task. Because the Human Factors
Task did not note that additional sub-elements are required, only the
primary element and at least one sub-element should be selected by the
evaluator. Therefore, the task remains unchanged.
One commenter submitted many comments on the format and layout of
the flight instructor ACS. The commenter suggested that all tasks in
the Flight Instructor Airplane ACS equivalent to those in the Private
and Commercial Pilot Airplane ACS should have identical elements. In
other words, the commenter stated the only difference should be the
requirement for instructional knowledge in the objective to streamline
the organization of the ACS. Additionally, the commenter suggested that
the FAA first remove all risk management elements in AOO I,
Fundamentals of Instructing, and second include a single skill element
requiring the evaluator to evaluate all knowledge elements. The ACS
uses a
[[Page 22503]]
common FOI intended to confirm an applicant's ability to provide
instruction in general terms that applies to all instruction, similar
to the equivalence between the Fundamentals of Instructing Tasks in the
respective Instructor PTS. The purpose of the Flight Instructor ACS is
to determine if an applicant is able to teach the material in a manner
conducive to an applicant's learning and, therefore, requires basic and
similar knowledge, risk management, and skill element validation.
Finally, one commenter posed questions regarding the use and
evaluation of certain elements in the Flight Instructor Airplane ACS.
The commenter's questions generally concerned how the FAA evaluates
risk and skill elements that are part of the FOI and what AOOs and
Tasks evaluators test on the ground versus in flight (and whether
tangential tasks could be combined). The FAA notes that the commenter's
questions reference how an evaluator designs a practical test, creates
a plan of action, and administers the test. First, in general, while
knowledge of FOI theory applies during the ground portion of the
practical test, risk and skill elements associated with the FOI may
also apply during the flight portion of a practical test for an
instructor rating. Next, while evaluators focus on AOOs I through V
during the ground portion of the practical test (i.e., the FOI,
technical subject areas, a preflight lesson on a maneuver to be
performed in flight, preflight planning, and elements of preflight
preparation), evaluators may ask questions or observe applicant
behaviors that relate to these same subjects during the flight portion
of the practical test. Evaluations conducted during the flight portion
of the practical test consider whether an applicant meets instructional
criteria, provides appropriate technical information, and performs risk
management. Prospective applicants should read the ACS Companion Guide
for Pilots, ACS Introductory paragraphs, the ACS appendices, and may
view FAA online resources to better understand design and
administration of practical tests.
The ARAC ACS WG provided an extensive list of suggested
administrative changes to the Flight Instructor Airplane ACS that do
not change the objectives of the tasks and AOOs. For example, the ARAC
ACS WG suggested adding a risk element addressing wrong surface
operations to the Runway Incursion Avoidance Task (AOO II, Task C). The
focus of this Task is to prevent runway incursions, which should
already encompass wrong surface operations that can lead to a runway
incursion. As another example, the ARAC ACS WG recommended adding a
risk element pertaining to NOTAMs within risk management of the NAS
(AOO II, Task G). However, the FAA notes that this topic is already
covered in AOO II, Task I. The FAA intends to continue working with the
ARAC ACS WG in the future to continually improve the ACS and will
consider administrative suggestions for later revisions of those
elements.
Additionally, several of these editorial comments by the ARAC ACS
WG suggested the FAA reorganize, rename, and resituate tasks within the
Flight Instructor Airplane ACS, which would require a substantial
overhaul, consolidation, and reorganization of AOOs, tasks, and
elements. The FAA understands the desire for uniformity amongst the
series of ACS for convenience but notes the ACS consist of independent
documents and standards, applicable to different categories and classes
of aircraft over multiple certificate levels. Because the requested
editorial and organizational changes would not have any impact on
safety in the NAS, the FAA only made the changes specified in Table 3,
Record of Editorial/Minor Changes, at this time.
vi. FAA-S-8081-9E, Flight Instructor--Instrument PTS for Airplane
Rating and Helicopter Rating, November 2023
The Flight Instructor Instrument PTS for Airplane Rating and
Helicopter Rating provides a table for the addition of an instrument
instructor rating to an existing flight instructor certificate.
Specifically, the table lists each possible flight instructor
certificate and rating held and then provides the required AOOs and
Tasks included on the practical test for an additional rating. The ARAC
ACS WG commented that the header ``IA,'' meaning Instructor
Instrument--Airplane Rating, was nonsensical because the applicant
would already hold that certificate. However, this PTS sets forth the
requirements for both a flight instructor instrument--helicopter rating
and a flight instructor instrument--airplane rating. Therefore, the
table in this PTS serves applicants who may hold an instructor
instrument airplane rating, who would follow the ``IA'' header to know
what AOOs must be completed for an instrument instructor-helicopter
rating; accordingly, the PTS retains the ``IA'' header.
vii. FAA-S-8081-8C, Flight Instructor Glider PTS for Glider Category,
November 2023
The Soaring Safety Foundation (SSF) recommended adding a Runway
Incursion Avoidance task to the Flight Instructor Glider PTS and stated
that the proliferation of motor gliders, both touring and all other
types, increases the likelihood of a runway incursion. However, the FAA
notes that the introduction to the PTS states that evaluators and
instructors must place special emphasis on areas of aircraft operation
considered critical to flight safety, which expressly includes a
reference to runway incursion avoidance. Because this risk is accounted
for in the special emphasis areas, the FAA finds the special emphasis
area sufficient. During the transition to ACS, the FAA may relocate
this special emphasis area to a risk element, if warranted.
Additionally, the SSF recommended adding a night operations task to
the flight instructor PTS only, citing the same reasons as the
recommended addition of the Runway Incursion Avoidance task. While the
FAA agrees that motor gliders could operate at night if properly
equipped, given the small community of night-flying glider pilots and
the absence of a task in the Private and Commercial Glider ACS, there
is not an urgent safety-sensitive reason to expand the footprint of the
flight instructor test without notice and comment at this time. It
would also be difficult to require a flight instructor to demonstrate
instructional ability for this task when there is no requirement within
the pilot PTS for gliders. However, the addition of this task may be
considered across all glider certificate levels when transitioning the
Glider PTS to ACS in the future if there is a safety-based case to do
so.
Finally, the SSF also requested the addition of a high-altitude
operations task in the Flight Instructor Glider PTS. Specifically, SSF
stated the increased number of high-altitude glider cross-country
flights that largely occur between 12,500 feet and 18,000 feet when
flying in the mountains warrant a specific task to ensure competency.
However, relevant testing on this subject area is already housed under
AOO X, Soaring Techniques, Task C, Wave Soaring, which predominately
occurs at high altitudes.
viii. FAA-S-ACS-8C, Instrument Rating--Airplane ACS, November 2023
One commenter suggested that the FAA modify the Instrument Rating--
Airplane ACS to include the option for
[[Page 22504]]
evaluation of filing an IFR flight plan to ensure realistic ATC
handling. Currently, the skill element found in AOO I, Preflight
Preparation, Task C, Cross-Country Flight Planning, differs from the
suggestion in that it would provide the option of creating a navigation
plan and actual filing of an IFR flight plan. The FAA did not implement
this option in any of the Instrument Rating ACS since the intent of the
task is to test the applicant orally and not demonstrate the cross-
country in flight and the applicant is tested on ATC handling AOO III,
Task A. Additionally, the training required for an instrument rating
set forth by Sec. 61.65 requires instrument flight training on cross-
country flight procedures performed under IFR when a flight plan has
been filed with an ATC facility.\77\ The applicant already demonstrated
their ability to fly a cross-country in the certificate level they
hold. This rating is for the purposes of instrument flight only. The
FAA considers that simulated filing of an IFR flight plan on a
practical test provides sufficient assurance an applicant can file an
IFR flight plan and receive a clearance. As such, the FAA did not make
the change in the final ACS.
---------------------------------------------------------------------------
\77\ 14 CFR 61.65(d)(2)(ii).
---------------------------------------------------------------------------
Another commenter stated that the phrasing used in AOO I, Preflight
Preparation, Task A, Pilot Qualifications changed between the original
Instrument Rating--Airplane ACS (FAA-S-ACS-8), published in 2016, which
used the element ``when an instrument rating is required'' and the
Instrument Rating--Airplane draft published in 2019 and maintained in
the NPRM draft (FAA-S-ACS-8B and FAA-S-ACS-8C, respectively), which use
the phrase ``privileges and limitations.'' The commenter stated that
because privileges and limitations only exist for pilot certificates,
not ratings, the knowledge element should be changed back to the 2016
phrasing. The FAA did not make a change to the adopted ACS. The
terminology ``privileges and limitations'' aligns with part 61.
Specifically, Sec. 61.2(a) defines the validity of privileges of a
certificate and a rating. When a rating appears on a pilot certificate,
the rating itself conveys certain privileges and limitations. For
example, a person who has a commercial pilot certificate with an
airplane category rating is limited from exercising commercial pilot
privileges in a rotorcraft category, helicopter class until they obtain
a rotorcraft category, helicopter class rating. The same concept
applies to those privileges accompanying an instrument rating (i.e.,
flight under IFR).
One commenter stated that AOO II, Task A, Aircraft Systems Related
to Instrument Flight Rules (IFR) Operations, traditionally focused only
on deicing systems and noted that the FAA added knowledge, risk
management, and skill elements pertaining to autopilots. The commenter
suggested eliminating duplication of elements related to automation
between that Task and AOO II, Task B, Aircraft Flight Instruments and
Navigation Equipment task. The FAA notes that Task A is specific to
aircraft systems related to IFR operations. This area not only includes
de-icing systems, but also automatic flight control systems (AFCS) as
set forth in the draft ACS. The FAA intentionally added the elements
for automation systems given technological advancement and modern
aircraft equipage. The purpose of Task B is to test the applicant on
the flight instruments and navigation pertaining to IFR operations. The
flight instruments correlate to automation; however, the two tasks have
two different objectives. Based on these reasons, the FAA is retaining
these elements in the final ACS.
The ARAC ACS WG recommended that the FAA remove the requirement for
a circle-to-land in the IPC so pilots may complete the IPC solely using
an Advanced Aviation Training Device (AATD). The FAA disagrees with
this recommendation, as AATD's lack the fidelity requirements for both
the visual and motion (no motion system requirement) systems to
properly represent the conduct of a circling and landing approach.
Pilots need to demonstrate their ability in a realistic environment so
that they are prepared to conduct the maneuver in the NAS.\78\ It is
for this reason that credit is also not provided for landing tasks. To
receive accurate training on these tasks, the pilot will have to use an
airplane or a full flight simulator (Level B, C, or D).
---------------------------------------------------------------------------
\78\ See Advisory Circular 61-136B, appendix E.
---------------------------------------------------------------------------
ix. FAA-S-ACS-6C, Private Pilot for Airplane Category ACS, November
2023
One commenter suggested the FAA remove knowledge of certification
requirements from the Private Pilot Airplane ACS, element PA.I.A.K1.
Specifically, AOO I, Preflight Preparation, Task A, Pilot
Qualifications, requires an applicant to demonstrate understanding of
certification requirements, recent flight experience, and record
keeping. The suggested change would remove ``certification
requirements'' from the element, as the commenter stated that knowledge
of the certification requirements is irrelevant for an applicant at the
practical test stage and would be more relevant to flight instructors.
The FAA disagrees with this removal, as a private pilot applicant
should know specific FAA regulations under title 14 Code of Federal
Regulations that not only pertain to initial private pilot
certification but also pertain to maintaining certification to continue
operating privileges (e.g., removal of any certification limitations,
adding ratings). While flight instructors provide the required dual
ground and flight training and verify the applicant meets the minimum
requirements for that pilot certificate, this fact alone does not
relieve an applicant from knowing the regulatory requirements for their
own continuing certification.
The same commenter suggested the FAA change a skill element found
in AOO I, Preflight Preparation, Task D, Cross-Country Flight Planning,
to create an aviation plan and file, or simulate filing, a VFR flight
plan as directed by the evaluator (specifically, element PA.I.D.S3).
The commenter further detailed that some applicants have never filed a
VFR flight plan airborne or on the ground. This change would give the
evaluator the option to ask an applicant to demonstrate opening and
closing a flight plan during the flight portion of a practical test as
opposed to only simulating this requirement. The FAA notes that two
elements within AOO I (PA.I.D.K4, elements of a VFR flight plan and
PA.I.D.K5, procedures for filing, activating, and closing a VFR flight
plan), allow an evaluator to determine the understanding and ability of
an applicant to create, file, open, and close a VFR flight plan. The
FAA did not modify the ACS as suggested, as this task corresponds with
the oral portion of the practical test that occurs prior to flight, and
the applicant would demonstrate this task as a simulation.
One commenter suggested that the Tasks in the AOO for Basic
Instrument Maneuvers (AOO VII) should be moved to Emergency Procedures
because the focus of basic instrument maneuvers should be to enable a
non-instrument rated pilot to successfully avoid and, failing that,
recover from inadvertent IMC. The commenter stated that the location of
the tasks will more appropriately emphasize the purpose of the
training. The FAA agrees with the commenter that emergency procedures
may situationally necessitate basic instrument maneuvers and,
therefore, would involve both AOOs. However, the FAA did not make the
resulting change in the adopted Private Pilot
[[Page 22505]]
Airplane ACS because tasks pertaining to basic instrument maneuvers
appropriately prioritize within their own AOO. Additionally, this AOO
corresponds to the regulatory AOO for Basic Instrument Maneuvers as set
forth by Sec. 61.107(b)(1)(ix) and (b)(2)(ix). When creating a plan of
action, the evaluator can combine tasks into one scenario to address
the commenter's suggestion.
The ARAC ACS WG suggested the addition of a note to clarify whether
applicants can use avionics-generated information to provide a
destination estimate for the initial or revised estimate during the
Pilotage and Dead Reckoning Task within AOO IV, Navigation. The ACS and
PTS create requirements for certification, and the FAA handbooks and
guidance provide accepted methods of compliance. In accordance with a
reference listed for this Task, the Pilot's Handbook of Aeronautical
Knowledge \79\ defines pilotage as navigation by reference to landmarks
or checkpoints. The guidance explains that, due to safety concerns in
the event of electronic navigation failure, applicants should have the
ability to use pilotage and dead reckoning for navigation. While the
FAA accepts using a computer-generated initial estimate as part of
flight planning, this Task provides the applicant an opportunity to
demonstrate basic understanding of the speed, time, and distance
relationship using realistic estimates without the benefit of satellite
or ground-based electronic navigation equipment. The FAA did not add a
note to the pilotage and dead reckoning task for avionics-generated
information to provide a destination estimate since the FAA's handbook
definition of pilotage and dead reckoning does not involve the use of
GPS or electronic navigation.
---------------------------------------------------------------------------
\79\ FAA-H-8082-25.
---------------------------------------------------------------------------
The ARAC ACS WG suggested adding Tasks from AOO IX, Emergency
Operations, Tasks E, F, and G (involving engine failures/inoperative
engines specific to multiengine airplanes) to the requirements for an
added multiengine sea rating based on the applicant already holding a
multiengine land rating. In the absence of safety data requiring
additional emergency operation testing for an airplane multiengine sea
added rating, the FAA maintains that these Tasks have sufficient
commonality in required maneuvering between AMEL and AMES and,
therefore, did not require the emergency operation testing for an added
multiengine sea rating.
The ARAC ACS WG suggested changing a skill element for the
Emergency Descent Task (AOO IX, Task A) to reference the Airplane
Flying Handbook (FAA-H-8083-3) and the airplane flight manual (POH/
AFM). However, the Task lists the Airplane Flying Handbook as a general
reference and the POH/AFM as a specific reference within the element
itself. These references provide applicants with the opportunity to
develop familiarity with that handbook information regarding an
emergency descent. During a demonstration of an emergency descent, the
FAA expects applicants to follow the manufacturer's guidance (i.e., the
POH/AFM) as the most tailored information to that aircraft.
x. FAA-S-8081-32A, Private Pilot PTS for Powered Parachute Category and
Weight-Shift-Control Aircraft Category, November 2023
Members of the ARAC ACS WG noted that the Private Pilot PTS for
Powered-Parachute and Weight-Shift Control lacks elements related to
risk management. The FAA notes that the PTS uses special emphasis areas
that apply globally to PTS Tasks to address risk mitigation. In
addition, the section on unsatisfactory performance discusses failure
to use proper and effective visual scanning techniques to clear the
area before and while performing maneuvers. While the FAA made minor
changes to PTS documents published as part of the NPRM, the FAA
considered it appropriate to develop risk management elements within
each Task when converting the PTS to an ACS through the collaborative
process established within the ARAC ACS working group, especially where
no safety concerns were identified by the commenters to justify an
addition as part of this rule.
xi. FAA-S-8081-17A, Private Pilot PTS for Lighter-Than-Air Category,
November 2023
One commenter recommended inclusion of an additional ratings task
table for applicants seeking a balloon rating. The FAA notes the PTS
that accompanied the NPRM had not been converted into ACS and were
largely unchanged from their pre-NPRM version. As a result, the FAA did
not create the additional ratings task table during this rulemaking.
The FAA intends to consult with members of the ARAC ACS WG prior to
proposing an additional rating task table for future revisions.
xii. FAA-S-8081-10E, Aircraft Dispatcher PTS, November 2023
The ARAC ACS WG provided extensive comments regarding the Aircraft
Dispatcher PTS and aircraft dispatcher certification in general. The
FAA found many of these comments and suggestions, such as raising
minimum enrollment requirements, increasing training hours, and
reducing items unique to pilots, outside the scope of this rulemaking.
However, in this section, the FAA responds to the comments pertaining
to the Aircraft Dispatcher standards, currently in the form of a PTS
and planned for conversion to an ACS in the future. See section IV.D.,
Table 3 Editorial/Minor changes of this preamble for editorial/minor
changes made to the Aircraft Dispatcher PTS.
One comment suggested removing certain elements from the Aircraft
Systems, Performance, and Limitations Task in the Flight Planning/
Dispatch Release AOO. Specifically, the commenter recommended removal
of elements corresponding to weight and balance because the commenter
contended that these issues have been removed from the knowledge test.
The FAA notes that the dispatcher knowledge test does have weight and
balance questions, and the FAA will continue to support questions for
those enumerated elements within the PTS (eventually ACS).
Additionally, an applicant must demonstrate skill in the areas of
knowledge specified in appendix A of part 65, which includes weight and
balance. As a result, the FAA maintains the elements that require the
applicant to compute weight and balance and determine limits, which
directly impacts aircraft performance for all phases of flight.
The commenter further suggested removing elements related to marker
beacons, Automatic Direction Finder (ADF), and Doppler Radar in AOO I,
Flight Planning/Dispatch Release, Task F, Navigation and Aircraft
Navigation Systems. The FAA did remove doppler radar and marker beacons
from the NPRM version of this PTS. However, the FAA does not agree with
removal of automatic direction finder (ADF). Because low altitude
airways in the NAS rely on non-directional beacons, aircraft
dispatchers may reference these routes, and some aircraft may track
these routes using an ADF or Radio Magnetic Indicator (RMI). The FAA's
current U.S. Terminal Procedures Publication (TPP) contains Non-
Directional Beacon (NDB) approaches, which require an appropriate
display.
3. Universally Applicable Comments
i. ARAC ACS WG Comments
The ARAC ACS WG submitted extensive comments to the NPRM and
[[Page 22506]]
various ACS and PTS. Discussion of a number of these comments occurred
within sections IV.A. and IV.B. of this preamble. Additionally, the FAA
adopted many of the ARAC ACS WG's suggestions in the ACS and PTS
accompanying this final rule, detailed in Table 3 of Section IV.D. of
this preamble. The FAA offers the following responses to the ARAC ACS
WG comments.
The ARAC ACS WG suggested several formatting revisions, such as a
change from tables to lists, numbering of the ACS appendix tables, and
clarifying section headers. The FAA maintained the format of the ACS as
proposed in the NPRM and notes that clear titles appear above each
chart, followed by a brief description of the chart's purpose for each
ACS, as well as within the body of the ACS themselves. In its
continuing collaboration with the ARAC ACS WG, the FAA will consider
recommendations and implement any changes that the FAA determines will
improve the readability and understanding of the ACS documents.
The ARAC ACS WG questioned whether a determination that an
applicant or certificate holder has met certain English language
requirements applies only to the practical test or to an IPC as well.
The ARAC ACS WG referred, specifically, to certain content in the ACS
that requires an evaluator to determine whether an applicant meets the
FAA Aviation English Language Standard (AELS). The ARAC ACS WG seems to
contend that the text should clarify English requirements, as the ACS
states it only applies to evaluators administering a practical test,
which does not include an IPC. The FAA examined this language and
determined that the paragraph in question does apply to a practical
test, evidenced by terminology and phrasing such as ``applicant,''
``before starting the practical test,'' and ``discontinue the practical
test.'' However, the FAA neglected to include checking, as explained in
AC 60-28B, in the ACS AELS section of appendix 1 and pointed out by the
ARAC ACS WG. As a result of the review, the FAA updated appendix 1 of
each ACS to include a practical test and regulatory checks (e.g., IPC
or pilot-in-command proficiency check). The evaluator conducting
testing, training, or any required regulatory check should evaluate if
the applicant for an FAA certificate or holder of an FAA certificate
demonstrates the FAA AELS.
Next, the ARAC ACS WG suggested that sample airman knowledge test
questions need to have representative questions reflecting the ACS
coding on actual tests to accurately reflect what an applicant missed
on the practice exam. The ARAC ACS WG stated that this, in turn, will
aid applicants, instructors, and evaluators in discrete identification
and training on specific missed elements. The FAA currently provides
codes for the sample knowledge test questions related to an ACS. As PTS
convert to ACS, the FAA works to ensure it updates the sample test bank
and will continue to do so as an outgrowth of this rulemaking.
Additionally, many independent sources, as well as the FAA's contracted
vendor for knowledge testing, PSI Services, LLC, have practice tests
available where users can receive sample test reports and ACS codes.
However, because these practice tests are not authored or administered
by the FAA, the FAA cannot commit to future efforts to tie test reports
to the ACS codes in those instances.
Lastly, the ARAC ACS WG suggested revisions to part 141 to align
with the revisions to part 61. Specifically, the ARAC ACS WG stated
that the NPRM is inaccurate in its statement that the AOOs for testing,
whether under part 61 or part 141, will be governed by areas of
operation in the applicable ACS or PTS. The ARAC ACS WG sought clarity
in both Sec. 141.67(c) and appendix E.4.(c) to part 141 to align the
AOOs with part 61 and the ATP ACS.\80\
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\80\ 14 CFR 141.67(c) requires tests given by a part 141 school
that holds examining authority to be at least equal in scope, depth,
and difficulty to the tests prescribed under part 61. Appendix E to
part 141 prescribes the minimum curriculum for an airline transport
pilot certification course for the following ratings: airplane
single engine, airplane multiengine, rotorcraft helicopter, and
powered-lift. Section 4.(c) in the appendix requires an approved
course to include flight training on the AOOs listed in that
section.
---------------------------------------------------------------------------
As discussed in the NPRM, the FAA contemplated the proposal of
conforming amendments to part 141 to reconcile the proposed changes in
part 61. However, the FAA did not propose any revisions to part 141. In
other words, applicants from a pilot school (or provisional pilot
school) either take the practical test or an end-of-course test given
by a pilot school that holds examining authority. The practical test
under part 61 would align with the applicable ACS by direct reference
in part 61: Sec. Sec. 61.14 and 61.43, as adopted. The end-of-course
test would align with the applicable ACS through the cross-reference in
Sec. 141.63(c), without need for further amendment because Sec.
141.67(c) already requires such end-of-course test to be equal in
scope, depth, and difficulty to the comparable practical test
prescribed by the Administrator under part 61 (i.e., the practical test
that aligns with the applicable ACS by regulation).
As stated in the NPRM, the FAA acknowledges that the areas of
operation in part 141, appendix E, section 4.(c) will not precisely
align with the areas of operation set forth in Sec. 61.157(e) as
adopted in this final rule. The FAA considered making conforming
amendments to part 141 appendices in this rulemaking; however, the
concern for unintentional administrative repercussions to part 141
pilot schools and approved training curriculums that would be outside
the scope of this rulemaking outweighed the aspiration for consistency
at this time.
ii. Other General Comments
Outside of the ARAC ACS WG comments, many commenters' statements
were general in nature. This section addresses general comments
regarding ACS and PTS across a broad range of aircraft.
One commenter questioned how incorporating the ACS and PTS by
reference would affect the referenced material with each task (e.g.,
other regulations, ACs, Handbooks, Flight Manuals, etc.). The FAA notes
that secondary references included in a document incorporated by
reference are not considered regulatory unless another mechanism has
made them so.\81\ For example, a secondary reference to an Advisory
Circular is not regulatory because an Advisory Circular is guidance by
nature. Conversely, a secondary reference to a specific 14 CFR section
would be regulatory because it is adopted into the CFR. Therefore,
incorporation by reference does not reach to the reference material
listed under each Task heading in all ACS and PTS unless another
mechanism makes the references regulatory. In the event of a conflict
between secondary references and the ACS and PTS, the ACS and PTS would
control, as the secondary references, unless made regulatory through
other means, only constitute guidance.\82\ Because these references and
other guidance in existence do not
[[Page 22507]]
require an applicant seeking a certificate or rating to complete
specific tasks and maneuvers to a minimum given standard to obtain the
applicable certificate or rating as the ACS and PTS do, the FAA did not
incorporate those documents by reference in this rulemaking.
---------------------------------------------------------------------------
\81\ The Office of the Federal Register contemplated the
inclusion of secondary references in material that has been
incorporated by reference and declined to extend its regulatory
purview to allow for IBR of secondary material merely referenced in
the primary document. See Incorporation by Reference, 76 FR 66267,
66275 (Nov. 7, 2014).
\82\ The commenter specifically noted that Lighter-Than-Air
Balloon Manual PTS, which lists the balloon flight manual as
reference and notes that no regulation exists requiring a balloon to
have a flight manual. The FAA lists a flight manual in the Lighter-
Than-Air Balloon as a reference only to contemplate a balloon that
does have a flight manual as a resource for applicants and DPEs for
that specific task. If a flight manual does not exist, then that
reference would simply not apply.
---------------------------------------------------------------------------
Additionally, the commenter stated that rather than using
incorporation by reference for the PTS and ACS, the FAA should move to
a testing standard model like that of the Financial Accounting
Standards Board, where an independent entity of experts provides
generally accepted accounting standards. The commenter conceded that
these standards are authoritative and without IBR as law with the
Securities and Exchange Commission (SEC). The FAA does not purport to
be an expert in regulation by other Federal agencies but notes that it
considers these standards to satisfy the criteria in section 108 of the
Sarbanes-Oxley Act of 2002 as generally accepted for purposes of
federal securities laws. The FAA does not find that this model
translates to airman certification as the commenter suggests. The FAA
drafted and revised ACS and PTS in collaboration with industry
affiliates. Rulemaking further enhances and facilitates a broad range
of input and provides an equal opportunity for any interested party to
provide comments for consideration. However, the FAA possesses the
statutory authority under 49 U.S.C. 44702 to issue airman certificates
when the Administrator finds an individual qualified for and able to
perform the duties related to the position authorized by the
certificate. The FAA does not find it appropriate to allow outside
parties to maintain a performance-based approach to certification
standards whereby an outside entity may create an independent framework
to certification. Further, consideration of an overhaul to the
certification system of this nature falls outside the scope of this
rulemaking.
One commenter provided extensive feedback on the broad concept of
risk management elements within the ACS. Specifically, the commenter
stated that risk management elements should only be tailored to those
subject areas that have historically been common causes of accidents,
incidents, and/or violations to ensure an objective practical test. The
commenter stated that the addition of risk management elements, as well
as the open-ended phrasing and lack of guidance material, creates a
subjective, overwhelming, and unreasonable testing standard that does
not enhance aviation safety and, rather, makes learning and evaluation
more difficult. The commenter provided several examples to support the
position that the risk management elements may seem to pose a
significant risk but, in actuality, do not pose such a risk; the
commenter offered the element of ``unexpected runway changes by ATC''
to support this contention. Specifically, the commenter stated that
this element is required in the Private Pilot ACS, but that is not a
threat until a pilot is operating an aircraft at an ATP certificate
level.
The FAA recognizes that each of the ACS contains many risk
management elements. However, the FAA does not agree that regulatory
testing should only include risk management elements that have
objectively resulted in accidents, incidents, and/or violations. A
risk, by definition, includes the composite of the predicted severity
and likelihood of the potential effect of a hazard; therefore, an
action cannot require a fixed standard or minimum of a certain level of
accidents or fatalities as the only benchmark to be considered as
``risky.'' If the FAA only included those risk factors identified
through accident or incident data, it could unintentionally remove a
risk management element that succeeds in keeping the accident and
incident rate low in that particular area, thereby creating greater
risk (i.e., training and testing on a certain risk management element
could explain a lack of accidents/incidents attributed to that risk
management element). Conversely, many accident/incident reports may
attribute a cause to one area when multiple causes affect an outcome.
As the regulator of the NAS, the FAA seeks to ensure pilots train and
test to the highest standard of safety and finds that the risk
management elements equip pilots with the knowledge and strategies to
(1) reduce hazardous situations in the NAS and (2) mitigate situations
when they do arise.
While some risk management elements may seem duplicative or
redundant, the vast array of unique piloting scenarios and challenges
may require a pilot to consider the same hazards at multiple instances.
The FAA agrees that the number of risk management elements in the ACS
exceeds the number of Special Emphasis items in the PTS; however, the
FAA intended this development. The PTS has long required the evaluation
of knowledge and risk management elements in both the ground and flight
portions of the practical test. The ACS acts as a better tool because
it clearly defines these elements and organizes them in the context of
phases of flight rather than broadly scoped risk identification. As the
commenter pointed out, the risk management element of ``collision
hazard'' is often parroted throughout the ACS. However, with mastery of
the knowledge and skill of, for example, recovery from unusual flight
attitudes, emergency descent, or night operations, the ACS ascertains
that a pilot should be proficient at identifying any resulting
collision hazards.
Additionally, the FAA authored the Risk Management Handbook \83\ as
guidance to help recognize and manage risk. Specifically, applicants
and instructors may use the handbook as a tool to identify potential
flight hazards, assess the hazard, and mitigate associated risks. ACS
tasks reference this Risk Management Handbook, and it provides context,
expansion, and case studies on several risk management elements. For
example, many of the ACS include risk management elements specific to
fuel planning (e.g., Private Pilot for Airplane Category ACS AOO I:
Preflight Preparation, Task D: Cross-Country Planning, risk management
element 6: the applicant can identify, assess, and mitigate risk
associated with fuel planning). The Risk Management Handbook sets forth
a hypothetical scenario in which a reduced fuel load due to additional
weight requires a risk assessment of fuel stop planning, alternate
landing destinations, fuel efficiency due to weather and/or altitude,
etc. While the FAA agrees with the commenter that the handbook does not
have a specific scenario for every risk management element, the
handbook provides a foundation of analytical tools a pilot could apply
to the complexities of risk mitigation. During a practical test, the
element of subjectivity may decrease insofar as the applicant may also
test on their awareness, mitigation, and consideration of elements in
the context of a separate task or maneuver in the operating
environment.
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\83\ https://www.faa.gov/regulationspolicies/handbooksmanuals/risk-management-handbook-faa-h-8083-2a.
---------------------------------------------------------------------------
Finally, the FAA notes that, in collaboration with the ARAC ACS WG,
it revised the risk management elements from identification of negative
action (e.g., failure to do something) to simply identification of the
area within which an applicant could analyze risk. The actual risk
involves hazards associated with the action, rather than failure to do
something specific, as a pilot's failure to do something may not be the
only time risk presents itself in a scenario (e.g., collision hazards,
a system malfunction). The FAA expects applicants to demonstrate
knowledge of hazards and risks associated with a Task
[[Page 22508]]
and to demonstrate the aeronautical decision-making ability to mitigate
risks that develop during the practical test, including those risks
inside and outside of a pilot's control (or failure to maintain
control).
GAMA, members of the ARAC ACS WG, and several individual commenters
urged the FAA to continue working with the ARAC ACS WG to continue
fostering a collaborative environment with the airmen training and
testing regime. GAMA specifically encouraged the FAA to task the ARAC
ACS WG with the continuation of its work to support the agency's
experts in managing and modernizing the airman certification framework.
Additionally, these groups expressed concern regarding communication
between the ARAC ACS WG and the FAA due to ex parte limitations during
a rulemaking. Further, GAMA would like the FAA to provide a clear
schedule for development to assist the industry.
First, the FAA notes it does not intend to disengage from the ARAC
ACS WG and plans to continue working together on further ACS
publications and safety-related matters. Specifically, the FAA expects
the ARAC ACS WG and the FAA to collaborate in the conversion of the
remaining PTS to ACS, refinement of the active ACS, and incorporation
of future developments in aviation innovation within the airmen
certification framework. The ARAC ACS WG development process does not
need to change simply because the FAA must make ACS documents
regulatory through the IBR process once they are submitted to the FAA
by ARAC.
Because the ACS and PTS attain regulatory status upon the effective
date of this final rule, any revisions made to the documents will
require rulemaking. While this benefits the regulated community in that
it will clearly inform and define the revisions in a given ACS or PTS
that the regulated community must adhere to, it also means that the FAA
and the regulated community, including the ARAC ACS WG, must heed ex
parte considerations \84\ upon the commencement of the rulemaking. The
FAA notes that this does not mean all communications would halt with
the ARAC ACS WG and/or other interested industry parties. Rather, the
FAA simply cannot discuss or negotiate the substance of that particular
rule with an outside party without providing the same opportunities to
all members of the regulated community. For example, if the ARAC ACS WG
submitted a recommendation with the Commercial Pilot Airplane ACS
through ARAC and the FAA concurred and commenced a rulemaking, the FAA
would follow the Department of Transportation (DOT) requirements and
guidance on ex parte contacts during informal rulemaking.\85\ However,
this limitation would not necessarily keep the FAA from continuing to
collaborate with the ARAC ACS WG on matters unrelated to the
rulemaking, for example, the Private Helicopter ACS. Additionally, the
FAA could meet with interested parties to receive information and may
ask clarifying questions, as long as such meetings are appropriately
memorialized and promptly docketed. Finally, the FAA cannot commit at
this time to a clear schedule of the PTS to ACS transition or provide a
concrete revision cycle but will collaborate on timelines with the ARAC
ACS WG based on revision priority and resources.
---------------------------------------------------------------------------
\84\ See 49 CFR 5.5. See also Guidance on Communication with
Parties outside of the Federal Executive Branch (Ex Parte
Communications), April 19, 2022; https://www.transportation.gov/regulations/memorandum-secretarial-officers-and-heads-operating-administrations.
\85\ The FAA notes that, in accordance with the APA, the
regulated community would have an opportunity to comment within that
rulemaking docket, similar to this IBR process.
---------------------------------------------------------------------------
Finally, one commenter suggested some general changes to the
weather task elements throughout all of the ACS. The commenter first
recommended removing the weather depiction chart as obsolete, which the
FAA agrees with and has made the change in the appropriate ACS (see
section IV.D., Table 3, of this preamble for weather-related element
changes, including other weather charts as referred to by the
commenter). Additionally, the commenter generally disagreed with
itemizing the weather-related products throughout the ACS and suggested
that, if itemization was necessary, the FAA reorganize the element as
observation, analyses, forecasts, and in-flight weather advisories.
While the FAA has maintained the general itemization of those weather
elements to provide specific feedback for applicants on knowledge tests
and to allow applicants, instructors, and evaluators to focus on
specific incorrect knowledge elements related to weather products and
resources, the FAA updated ACS to maintain currency with aviation
products.
C. ACS Testing Codes
As previously discussed, the FAA is in the process of converting
the PTS to ACS. Since this endeavor began in 2011, a number of PTS
have, in fact, been converted into ACS and are utilized today as the
testing standard. However, as part of this rulemaking, the FAA proposed
revisions to existing ACS in addition to incorporation by reference. As
a result, some ACS element codes were revised. The ACS codes for these
elements serve as the link between the airman knowledge test and the
practical test. Specifically, the FAA assigns an ACS code to every
knowledge test question. When a person answers a question incorrectly
on an airman knowledge test, the ACS code associated with that test
question appears on the applicant's knowledge test report so that an
evaluator may include the ACS element on the practical test.
Additionally, pursuant to Sec. 61.39(a)(6), an applicant must obtain
an endorsement from an authorized instructor certifying that the
applicant demonstrated satisfactory knowledge of the subject areas
shown as deficient on the airman knowledge test. Therefore, the
accuracy of these codes ensures that an applicant has the required
knowledge before receiving a certificate.
Because the ACS elements link to an ACS code, as existing ACS are
modified, ACS codes may undergo revision. Specifically, ACS codes will
be added when ACS elements are added to tasks under areas of operation.
Further, the addition of ACS elements could create a shift in ACS codes
for subsequent ACS elements. Conversely, ACS element codes may archive
when the FAA removes ACS elements from tasks under areas of operation.
Given that airman knowledge report and associated test codes remain
valid for 24 months or 60 months,\86\ shifting ACS element codes could
create problems in the accurate identification of ACS elements trained
and endorsed under Sec. 61.39(a)(6) and tested by the evaluator.\87\
The ARAC ACS WG commented on this potential problem with revised ACS,
stating that the FAA needs a way to convey what subjects correspond to
the ACS element code on the Airman Knowledge Test Report to ensure the
correct retraining takes place should ACS code shuffling occur.
---------------------------------------------------------------------------
\86\ See Sec. 61.39(a) prerequisites for practical tests.
\87\ The FAA notes that some commenters suggested reorganization
of tasks and elements for alignment purposes across certain ACS. For
example, Flight Safety International commented that tasks in the
Preflight Preparation Area of Operation should be reorganized to
align the ATP and Type Rating Airplane, Helicopter, and Powered-Lift
ACS and PTS. The FAA declined to revise tasks solely for the purpose
of alignment where this would result in major changes to the testing
codes.
---------------------------------------------------------------------------
The FAA notes that it proposed four revised ACS with the NPRM that
contained reordered elements: Private Pilot for Airplane Category ACS,
Commercial Pilot for Airplane Category
[[Page 22509]]
ACS, Instrument Rating--Airplane ACS, and ATP and Type Rating for
Airplane Category ACS. As noted by the ARAC ACS WG, these revisions
resulted in code shuffling,\88\ which the FAA corrected in the versions
of these ACS incorporated by reference. Additionally, the ARAC ACS WG
suggested additional detail within certain elements of ACS. Breaking
out elements could create a disruption in the middle of codes in the
proposed ACS revisions, thereby creating a waterfall effect of ACS
coding changes. Therefore, the final ACS revisions now list several new
sub-elements under the overarching element, a framework that will not
substantially affect ACS codes and that the FAA could apply for future
ACS revisions. For example, the Instrument Rating--Airplane ACS dated
June 2018, FAA-S-ACS-8B, sets forth the knowledge element of ``Route
planning, including consideration of the available navigational
facilities, special use airspace, preferred routes, and alternate
airports.'' The FAA recognizes that many substantive concepts reside
within this overarching element, such that a discrete deficiency should
receive a narrower scope (i.e., an applicant could be deficient in
demonstrating knowledge of route planning because the applicant missed
a question in chart supplements but subsequently receive an endorsement
from an instructor by demonstrating knowledge of special use airspace,
thereby failing to cure the deficiency). Therefore, the FAA further
detailed the element into sub-elements.\89\ These sub-elements will
also provide applicants, evaluators, and authorized instructors with
more discrete identification of subject deficiency.
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\88\ For example, the ARAC ACS WG provided that an AKTR with
code ``CA.I.C.K1.a'' did not correspond to anything because it was
removed from the ACS version that was proposed to be incorporated by
reference with this rulemaking (i.e., FAA-S-ACS-7B). Additionally,
because of the shuffling, upon finalization of this final rule and
the revised ACS, a person would be unclear whether the AKTR code
``PA.VI.B.S6'' on their AKTR means ``uses proper communication
procedures when utilizing radar services,'' as stated in FAA-S-ACS-
6B, or ``maintain the selected altitude, 200 feet and
heading, 15[deg],'' as stated in FAA-S-ACS-6C.
\89\ The sub-elements listed as: K1a through K1h include:
available navigational facilities, special use airspace, preferred
routes, primary and alternate airports, enroute charts, chart
supplements, NOTAMs, and terminal procedures publications (TPP). The
sub-elements were also added in the Instrument-Helicopter ACS,
Instrument-Powered-Lift ACS, and Flight Instructor-Instrument
Powered Lift ACS.
---------------------------------------------------------------------------
In the future, if the FAA adds discrete elements to ACS tasks, the
FAA has identified a framework of including additions at the end of the
listing so as to not create a waterfall effect of code shifting.
Additionally, where the FAA removed an element, the FAA simply replaced
the text with the term ``Archived.'' A record of archived ACS testing
codes appears in Section 8 of the ACS Companion Guide for Pilots, as
well as a record of changes in the front matter of the particular ACS.
The FAA plans to update and utilize Section 8 of the Companion Guide to
communicate archived codes in future revisions of ACS that may occur.
Finally, an applicant must test in accordance with the regulations
that exist at the time of the practical test, meaning that the
evaluator must base the practical test on the version of the ACS
incorporated by reference at the time of that test. Evaluators will
test applicants on the elements that the applicant was shown to be
deficient on the knowledge test; however, if the codes correspond to
any archived elements that no longer apply to the ACS with which the
practical test must align, evaluators would not include those elements
on the practical test.\90\ Therefore, the FAA modified appendix 1 of
the ACS series with an applicability statement in the minimum elements
tested for each applicable task.
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\90\ The FAA notes, however, that the requirement for the
applicant to demonstrate satisfactory knowledge of the deficient
elements pursuant to Sec. 61.39(a)(6) remains in effect. In the
case of an archived code, the applicant, and the authorized
instructor in providing the endorsement, would use the ACS Companion
Guide for Pilots to determine the specific subject area
corresponding to that code.
---------------------------------------------------------------------------
D. Record of Changes
The FAA received a number of editorial or minor changes to specific
ACS, PTS, and the ACS Companion Guide for Pilots. Because the FAA
concurs and adopts these changes as submitted, the FAA does not find it
necessary to respond to each individual comment with substantial
rationale. Additionally, during the pendency of the rulemaking, the FAA
identified certain modifications necessary to improve the quality of
the documents. The FAA presents the following record of changes as
implemented in the ACS and PTS incorporated by reference in this final
rule and the companion guide.
Table 3--Record of Editorial/Minor Changes
------------------------------------------------------------------------
Document Changes
------------------------------------------------------------------------
FAA-G-ACS-2, Airman 1. Modified Applicant's Checklist to
Certification Standards allow for ``printed or electronic''
Companion Guide for Pilots. Chart Supplement or AIM.
2. Replaced weather AC 00-6, AC 00-45,
and AC 00-54 with the Aviation Weather
Handbook (FAA-H-8083-28) in Section 5:
References.
3. Revised acronym ``KOL'' to ``KOEL``.
4. Added AC 60-22, Aeronautical Decision
Making to Section 5: References.
5. Removed FAA-H-8083-33 from Section 5:
References.
All Airman Certification 1. Added an introductory note in the
Standards. Foreword referencing and explaining the
ACS Companion Guide for Pilots.
2. Added Pilots Handbook of Aeronautical
Knowledge (FAA-H-8083-25) and the Risk
Management Handbook (FAA-H-8083-2) as a
reference in various Tasks.
3. Replaced weather AC 00-6, AC 00-45,
and AC 00-54 with the Aviation Weather
Handbook (FAA-H-8083-28).
4. Revised weather task sub-element texts
to current weather products.
5. Added legend with added ratings table
acronym definitions in appendix 1,
Practical Test Roles, Responsibilities,
and Outcomes, where applicable.
6. Revised acronym ``KOL'' to ``KOEL'',
as applicable.
7. Included information related to
proficiency checks and English language
proficiency in the appendix 1, Practical
Test Roles, Responsibilities, and
Outcomes, Evaluator Responsibilities
section.
8. Edited Use of Flight Simulation
Training Devices (FSTD) paragraph in
appendix 3, Aircraft, Equipment, and
Operational Requirements & Limitations.
All Airplane Airman 1. Standardized use of ASEL, ASES, AMEL,
Certification Standards. and AMES acronyms.
2. Added Major Enhancements Section for
existing Airplane ACS providing a key of
added and archived elements.
[[Page 22510]]
FAA-S-ACS-11A, Airline 1. Corrected Table of Contents to include
Transport Pilot and Type the Credit for Pilot Time in an ATD
Rating for Airplane Category section.
Airman Certification 2. Added AC 60-22, Aeronautical Decision
Standards. Making, as a reference to AOO I,
Preflight Preparation, Task F, Human
Factors.
3. Added statement pertaining to certain
training and checking programs in
appendix 1, Practical Test Roles,
Responsibilities, and Outcomes,
Satisfactory Performance.
4. Added statement to appendix 3,
Aircraft, Equipment, and Operational
Requirements & Limitations, V. Stall
Prevention, ``Other warnings, cautions,
or alerts that do not meet the
definition of a stall warning, such as a
low airspeed warning, cannot be used as
an indication of an impending stall for
completion of these stall Tasks.''
FAA-S-ACS-25, Flight 1. Corrected out-of-sequence knowledge
Instructor for Airplane sub-element of K6 in AOO I, Fundamentals
Category Airman of Instructing, Task D, Student
Certification Standards. Evaluation, Assessment, and Testing.
2. Removed the AOO II, Technical Subject
Areas, Task H, Navigation Systems and
Radar Services task skill element
requiring an applicant to maintain the
appropriate altitude.
3. Added a note specifying the minimum
knowledge elements required in AOO II,
Technical Subject Areas, Task P, One
Engine Inoperative Performance.
4. Relocated information regarding
previously developed lesson plans from
the objective for AOO IV, Preflight
Lesson on a Maneuver to be Performed in
Flight, Task A, Maneuver Lesson, into a
note.
5. Replaced phrase within AI.VII.E.K2
``approach and landing performance''
with ``takeoff and climb performance''.
6. Revised phrase within AI.X.D.R5 from
``elevator stall'' to ``elevator trim
stall''.
7. Formatting revisions within appendix
1, Practical Test Roles,
Responsibilities, and Outcomes,
Evaluator Responsibilities.
FAA-S-ACS-7B, Commercial 1. Added 14 CFR 119.1(e) as a reference
Pilot for Airplane Category to the AOO I, Preflight Preparation,
Airman Certification Task A, Pilot Qualifications.
Standards. 2. Replaced phrase within CA.IV.E.K1 ``on
approach and landing performance'' with
``on takeoff and climb performance''.
3. Added CA.VI.B.S5 element.
4. Revised phrase within CA.VII.C.R5 from
``elevator stall'' with ``elevator trim
stall''.
5. Removed the complex airplane
requirement statement from appendix 3,
Aircraft, Equipment, and Operational
Requirements & Limitations, Equipment
Requirements & Limitations section.
FAA-S-ACS-6C, Private Pilot 1. Replaced phrase within PA.IV.E.K1 ``on
for Airplane Category Airman approach and landing performance'' with
Certification Standards. ``on takeoff and climb performance''.
2. Revised phrase within PA.VII.C.R5 from
``elevator stall'' with ``elevator trim
stall''.
3. Revised AOO VIII, Basic Instrument
Maneuvers, Task E, Recovery from Unusual
Flight Attitudes,\91\ PA.VIII.E.R7
element text from ``High G situations''
to ``Operating envelope
considerations''.
4. Removed the complex airplane
requirement statement from appendix 3,
Aircraft, Equipment, and Operational
Requirements & Limitations, Equipment
Requirements & Limitations section.
FAA-S-ACS-8C, Instrument 1. Added note to AOO I, Preflight
Rating--Airplane Airman Preparation, Task C, Cross-Country
Certification Standards. Flight Planning, regarding use of a
computer-generated flight plan.
2. Removed instructor designation \92\
within appendix 1, Practical Test Roles,
Responsibilities, and Outcomes,
Instrument Proficiency Check.
All Powered-Lift Airman 1. Replaced ``VTOL'' and ``cruise'' with
Certification Standards. ``thrust-borne flight,'' ``semi-wing
borne flight,'' and ``wing-borne
flight,'' as applicable.
2. Replaced the term ``conversion/
transition'' with ``conversion,'' as
applicable.
3. Replaced ``conversion angle'' with
``thrust vector angle,'' as applicable.
4. Removed FAA-H-8083-33 as a reference.
FAA-S-ACS-27, Flight 1. Removed AOO II, Technical Subject
Instructor for Powered-Lift Areas, Task H, Navigation Systems and
Category Airman Radar Services element, IL.II.H.S6,
Certification Standards. requiring an applicant to maintain the
appropriate altitude.
2. Relocated previously developed lesson
plan information for AOO IV, Preflight
Lesson on a Maneuver to be Performed in
Flight from ``objective'' to ``note''.
3. Specified checklists to be completed
in element IL.VIII.G.S1 of AOO VIII,
Takeoffs, Landings, and Go-Arounds, Task
G, Running/Roll-On Landing (i.e.,
approach and landing checklists).
4. Added note to AOO XII, Slow Flight and
Stalls, clarifying minimum Task
selection.
5. Added note to AOO XIV, Emergency
Operations, and AOO XV, Special
Operations, clarifying minimum Task
selection.
6. Formatting revisions within appendix
1. Practical Test Roles,
Responsibilities, and Outcomes.
FAA-S-ACS-2, Commercial Pilot 1. Added 14 CFR 119.1(e) as a reference
for Powered-Lift Category to AOO I, Preflight Preparation, Task A,
Airman Certification Pilot Qualifications.
Standards. 2. Specified checklists to be completed
in CP.V.G.S1 of AOO V, Takeoffs,
Landings, and Go-Arounds, Task G,
Running/Roll-On Landing (i.e., the
approach and landing checklists).
3. Revised ``Addition of a Powered-Lift
Rating to an Existing Commercial Pilot
Certificate'' table to specify that
selection requirements for Tasks are set
forth in the body of the ACS (defined by
an asterisk) rather than a requirement
to test all tasks under that AOO.
[[Page 22511]]
FAA-S-ACS-13, Private Pilot 1. Added sub-element (e) to AOO I,
for Powered-Lift Category Preflight Preparation, Task B,
Airman Certification Airworthiness Requirements, PL.I.B.K1
Standards. (Owner/Operator and pilot-in-command
responsibilities).
2. Specified checklists to be completed
in PL.V.G.S1 of AOO V, Takeoffs,
Landings, and Go-Arounds, Task G,
Running/Roll-On Landing (i.e., the
approach and landing checklists).
3. Added PL.VIII.B.S5 to AOO VIII,
Navigation, Task B, Navigation and Radar
Services (Recognize signal loss or
interference and take appropriate
action, if applicable).
4. Revised ``Addition of a Powered-Lift
Rating to an Existing Private Pilot
Certificate'' table to specify that
selection requirements for Tasks are set
forth in the body of the ACS (defined by
an asterisk) rather than a requirement
to test all tasks under that AOO.
FAA-S-ACS-28, Flight 1. Corrected prefix of ACS Codes for AOO
Instructor--Instrument II, Technical Subject Areas, Task E,
Rating Powered-Lift Airman Regulations and Publications Related to
Certification Standards. Instrument Flight Operations.
2. Added note to AOO III, Preflight
Preparation, Task B, Cross-Country
Flight Planning regarding use of a
computer-generated flight plan.
3. Relocated information regarding
previously developed lesson plans from
the objective for AOO IV, Preflight
Lesson on a Maneuver to be Performed in
Flight, Task A, Maneuver Lesson, into a
note.
4. Formatting revisions within appendix
1. Practical Test Roles,
Responsibilities, and Outcomes.
5. Added instructions to appendix 2 for
the evaluator in the case of Task
failure due to ADM considerations.
FAA-S-ACS-3, Instrument 1. Added note to AOO I, Preflight
Rating--Powered-Lift Airman Preparation, Task C, Cross-Country
Certification Standards. Flight Planning, regarding use of a
computer-generated flight plan.
2. Removed instructor designation within
appendix 1, Practical Test Roles,
Responsibilities, and Outcomes,
Instrument Proficiency Check.
FAA-S-ACS-29, Flight 1. Added the Helicopter Instructor's
Instructor for Rotorcraft Handbook (FAA-H-8083-4) as a reference
Category Helicopter Rating to various tasks.
Airman Certification 2. Corrected AOO II, Technical Subject
Standards. Areas, Task I, Navigation Systems and
Radar Services, by removing proposed
HI.II.I.R5 element requiring the use of
autopilot to make appropriate course
intercepts (if installed and at the
evaluator's discretion) and adding a new
task element requiring use of an EFB (if
used).
3. Removed the AOO II, Technical Subject
Areas, Task I, Navigation Systems and
Radar Services task skill element
HI.II.I.S5 requiring an applicant
Recognize loss of navigational signal
and take appropriate action.
4. Removed the AOO II, Technical Subject
Areas, Task I, Navigation Systems and
Radar Services task element HI.II.I.S7
requiring an applicant to maintain the
appropriate altitude.
5. Relocated information regarding
previously developed lesson plans from
the objective for AOO IV, Preflight
Lesson on a Maneuver to be Performed in
Flight, Task A, Maneuver Lesson, into a
note.
6. Changed AOO V, Preflight Procedures,
Task D, Before Takeoff Check, HI.V.D.R1
element from ``NTSB accident reporting''
to ``Division of Attention while
conducting before takeoff checks''.
7. Added risk element HI.V.D.R3,
``Hazardous effects of downwash'' to AOO
V, Preflight Procedures, Task D, Before
Takeoff Check.
8. Added notes to AOO VI (Airport and
Heliport Operations), AOO VII (Hovering
Maneuvers), AOO VIII (Takeoffs,
Landings, and Go-Arounds), and AOO X
(Performance Maneuvers) clarifying
minimum Task selection.
9. Revised title of AOO VIII, Takeoffs,
Landings, and Go-Arounds, Task B, from
``Normal Approach and Landing'' to
``Normal and Crosswind Approach''.
10. Revised element HI.X.B.S9 in AOO X,
Performance Maneuvers, Task B, Straight-
in-Autorotation in a Single-Engine
Helicopter for clarity.
11. Reworded objective of AOO X,
Performance Maneuvers, Task C,
Autorotation With Turns in a Single-
Engine Helicopter, to remove redundancy.
12. Aligned AOO XI, Emergency Operations,
Task E, Recovery from Unusual Flight
Attitudes, HI.XI.E.S1 \93\ to the
Instrument Helicopter ACS.
13. Provided additional guidance to
evaluators regarding operations at the
start or completion of a maneuver within
appendix 1, in the Evaluator
Responsibilities section.
14. Formatting revisions within appendix
1. Practical Test Roles,
Responsibilities, and Outcomes.
15. Clarified the requirement in appendix
3, Aircraft, Equipment, and Operational
Requirements & Limitations, in the
Single and Multiengine Helicopters
section that an applicant must provide a
single-engine helicopter capable of
demonstrating touchdown autorotations.
16. Added information to appendix 3,
Aircraft, Equipment, and Operational
Requirements & Limitations, to indicate
that the briefing in reference to AOO
XI, Emergency Operations, Task E,
Recovery from Unusual Flight Attitudes,
must address any hazards associated with
the rotor system.
FAA-S-ACS-16, Commercial 1. Added 14 CFR 119.1(e) as a reference
Pilot for Rotorcraft to AOO I, Preflight Preparation, Task A,
Category Helicopter Rating Pilot Qualifications.
Airman Certification 2. Added FAA-H-8083-21 to AOO I,
Standards. Preflight Preparation, Task C, Weather
Information.
3. Revised title of AOO V, Takeoffs,
Landings, and Go-Arounds, Task B, from
``Normal Approach and Landing'' to
``Normal and Crosswind Approach''.
4. Revised CH.VI.B.S9 in AOO VI,
Performance Maneuvers, Task B, Straight-
in-Autorotation in a Single-Engine
Helicopter for clarity.
[[Page 22512]]
5. Added risk element CH.VIII.B.R7,
``Powerplant failure during the
maneuver'', to AOO VIII, Emergency
Operations, Task B, Powerplant Failure
at Altitude in a Single-Engine
Helicopter.
6. Aligned AOO VIII, Emergency
Operations, Task M, Recovery from
Unusual Flight Attitudes, CH.VIII.M.S1
\94\ to the Instrument Helicopter ACS.
7. Provided additional guidance to
evaluators regarding operations at the
start or completion of a maneuver within
appendix 1 in the Evaluator
Responsibilities section.
8. Added a note to the added ratings
table explaining asterisks in the
appendix 1, Practical Test Practical
Test Roles, Responsibilities, and
Outcomes.
9. Added information to appendix 3,
Aircraft, Equipment, and Operational
Requirements & Limitations, in reference
to AOO VIII, Emergency Operations, Task
M, Recovery from Unusual Flight
Attitudes that the briefing must address
any hazards associated with the rotor
system.
FAA-S-ACS-15, Private Pilot 1. Added FAA-H-8083-21 to AOO I,
for Rotorcraft Category Preflight Preparation, Task C, Weather
Helicopter Rating Airman Information.
Certification Standards. 2. Designated task selection for AOO IV,
Hovering Maneuvers, and AOO V, Takeoffs,
Landings, and Go-Arounds when an
applicant provides a helicopter with
wheel-type landing gear.
3. Revised title of AOO V, Takeoffs,
Landings, and Go-Arounds, Task B, from
``Normal Approach and Landing'' to
``Normal and Crosswind Approach''.
4. Revised element PH.VI.B.S9 in AOO VI,
Performance Maneuvers, Task B, Straight-
in-Autorotation in a Single-Engine
Helicopter for clarity.
5. Added risk element PH.VIII.B.R7,
``Powerplant failure during the
maneuver,'' to AOO VIII, Emergency
Operations, Task B, Powerplant Failure
at Altitude in a Single-Engine
Helicopter.
6. Provided additional guidance to
evaluators regarding operations at the
start or completion of a maneuver within
appendix 1 in the Evaluator
Responsibilities section.
7. Revised ``Addition of a Rotorcraft
Category Helicopter Rating to an
Existing Private Pilot Certificate''
table to specify that selection
requirements for Tasks are set forth in
the body of the ACS (defined by an
asterisk) rather than a requirement to
test all tasks under that AOO.
FAA-S-ACS-14, Instrument 1. Added note to AOO I, Preflight
Rating--Helicopter Airman Preparation, Task C, Cross-Country
Certification Standards. Flight Planning, regarding use of a
computer-generated flight plan.
2. Added note below ``Addition of a
Helicopter Rating to an Existing
Instrument Rating Certificate'' table in
appendix 1 indicating that AOO VII,
Emergency Operations, Task B, Instrument
Approach and Landing with an Inoperative
Engine (Simulated) (Multiengine
Helicopter Only), applies only if the
applicant supplies a multiengine
helicopter.
3. Removed instructor designation within
appendix 1, Practical Test Roles,
Responsibilities, and Outcomes,
Instrument Proficiency Check.
4. Added to appendix 3, Aircraft,
Equipment, and Operational Requirements
& Limitations, in reference to AOO IV,
Flight by Reference to Instruments, Task
B, Recovery from Unusual Flight
Attitudes that the briefing must address
any hazards associated with the rotor
system.
All PTS...................... 1. Replaced Area Forecast (FA) with
Graphical Forecasts for Aviation (GFA),
as applicable.
2. Replaced weather AC 00-6, AC 00-45,
and AC 00-54 with the Aviation Weather
Handbook (FAA-H-8083-28).
3. Replaced A/FD with Chart Supplements.
FAA-S-8081-8C, Flight 1. Replaced the Soaring Flight Manual
Instructor Practical Test with the Glider Flying Handbook (FAA-H-
Standards for Glider 8083-13).
Category. 2. Revised AOO II, Technical Subject
Areas, Task A, Aeromedical Factors,
element 10 to, ``Stress and Fatigue
causes, effects, and corrective
actions''.
3. Added AOO II, Technical Subject Areas,
Task A, Aeromedical Factors, element 11,
``Visual Illusions''.
FAA-S-8081-23B, Commercial 1. Added AOO I, Preflight Preparation,
Pilot Practical Test Task C, Weather Information, element
Standards for Glider 1.c, ``Contents of a standard briefing
Category. and soaring forecast''.
2. Added AOO I, Preflight Preparation,
Task F, Aeromedical Factors, element
1.i, ``Visual Illusions.''
3. Revised AOO III, Airport and
Gliderport Operations, Task C, Airport,
Runway, and Taxiway, Signs, Marking, and
Lighting, element 1, to align with task
description.
FAA-S-8081-22A, Private Pilot 1. Replaced the Soaring Flight Manual
Practical Test Standards for with The Glider Flying Handbook (FAA-H-
Glider Category. 8083-13).
2. Added AOO I, Preflight Preparation,
Task B, Weather Information, element
1.c, ``Contents of a standard briefing
and soaring forecast''.
3. Added AOO I, Preflight Preparation,
Task E, Aeromedical Factors, element
1.i, ``Visual Illusions.''
4. Revised AOO III, Airport and
Gliderport Operations, Task C, Airport,
Runway, and Taxiway Signs, Markings, and
Lighting, element 1, to align with task
description.
FAA-S-8081-17A, Private Pilot 1. Changed AOO I, Preflight Preparation,
Practical Test Standards for Task A, Certificates and Documents,
Lighter-Than-Air Category. element 1.b, from ``medical statement''
to ``medical fitness''.
2. Restored checklist usage element in
AOO IV, Launches and Landings, Task B,
Launch Over Obstacle; AOO VI,
Navigation, Task A, Navigation; and AOO
VII, Emergency Equipment, Task B,
Emergency Equipment and Survival Gear.
FAA-S-8081-32A, Private Pilot 1. Corrected inconsistent Weight-Shift-
Practical Test Standards for Control hyphenation.
Powered Parachute Category
and Weight-Shift-Control
Aircraft Category.
FAA-S-8081-31A, Sport Pilot 1. Corrected inconsistent Weight-Shift-
and Sport Pilot Flight Control hyphenation.
Instructor Practical Test
Standards for Powered
Parachute Category and
Weight-Shift-Control
Category.
[[Page 22513]]
FAA-S-8081-9E, Flight 1. Replaced TIBS and TWEB with sources of
Instructor Instrument weather data in AOO III, Preflight
Practical Test Standards for Preparation, Task A, Weather
Airplane Rating and Information, element 1.b and removed
Helicopter Rating. from abbreviations/acronyms list.
2. Corrected ``Pilot heat'' to read
``Pitot heat''.
3. Removed Stability Chart from element
2.h in AOO III, Preflight Preparation,
Task A, Weather Information.
FAA-S-8081-10E, Aircraft 1. Removed EWINS from AOO I, Flight
Dispatcher Practical Test Planning/Dispatch Release, Task C,
Standards. Weather Observation, Analysis, and
Forecasts.
2. Removed footnote 4 regarding AELS in
AOO I, Flight Planning/Dispatch Release,
Task E, Aircraft Systems, Performance,
and Limitations.
3. Removed approaches list from element 5
in AOO IV, Arrival, Approach, and
Landing Procedures, Task A, ATC and Air
Navigation Procedures.
4. Removed ETOPS, EWINS, PAR, and PRM
from Acronyms/Abbreviations list.
------------------------------------------------------------------------
E. Out of Scope
---------------------------------------------------------------------------
\91\ See section IV.C. of this preamble for additional
information on changes to the elements within this task due to
coding.
\92\ Because the FAA designates instructors giving an IPC as
evaluators, the term ``evaluator'' would inherently include
instructors.
\93\ As discussed in section VI.B.2.iii of this preamble, the
adopted Flight Instructor for Rotorcraft Category Helicopter Rating
ACS adds the task Flight Solely by Reference to Instruments as AOO
X, Task D. As a result, the lettering in the subsequent tasks
shifted by one letter. Therefore, this element appeared in the
proposed ACS as HI.XI.D.S1 under the Recovery from Unusual Flight
Attitudes Task D, now Task E.
\94\ As discussed in section VI.B.2.iii of this preamble, the
adopted Commercial Pilot for Rotorcraft Category Helicopter Rating
ACS adds the task Flight Solely by Reference to Instruments as AOO
VIII, Task L. As a result, the lettering in the subsequent tasks
shifted by one letter. Therefore, this element appeared in the
proposed ACS as CH.VIII.L.S1 under the Recovery from Unusual Flight
Attitudes Task L, now Task M.
---------------------------------------------------------------------------
The FAA received multiple comments that were considered out of
scope. This section summarizes such comments and provides a brief
response.
One commenter stated that part 141 pilot schools and part 142
training centers should be required to report disapprovals or
unsatisfactory results on final progress checks to the pilot records
database, so all pilots are treated equally. The FAA notes that the
pilot records database facilitates the sharing of pilot records among
those air carriers, operators, and entities set forth by 14 CFR 111.1.
The applicability provisions of the part 111 pilot records database do
not include either part 141 pilot schools or part 142 air agencies, nor
did the FAA contemplate adding disapprovals for unsatisfactory checks
to part 111 in the NPRM.\95\
---------------------------------------------------------------------------
\95\ In 2010, Congress directed the Administrator to establish
the pilot records database. 49 U.S.C. 44703(i). The plain language
of the statute only permits the FAA to require employers of pilots
to report records. Part 142 training centers and part 141 pilot
schools do not qualify as the employers of the pilots who receive
training and checking. See Pilot Records Database, 86 FR 31016 (Jun.
10, 2021).
---------------------------------------------------------------------------
One commenter expressed concern about the testing standards in part
65 for airmen other than flight crewmembers. Specifically, the
commenter stated that, while the written exam (knowledge test) and oral
exam for mechanics are graded to a minimum 70% passing score, the
practical test for mechanics should be passed to a 100% score. The FAA
notes that passing rate for all part 65 tests is set forth in Sec.
65.17(b) and applies to those tests for applicants of an air traffic
control, aircraft dispatcher, mechanic, repairman, and parachute rigger
certificate. This rulemaking did not propose any changes to the passing
rates for any airmen testing and, therefore, considers any changes to
the required score outside of the scope of this final rule. The FAA may
consider rulemaking on this topic at a future date.
One commenter asked if the definition of autorotation in 14 CFR
part 1 required a change to include powered-lift aircraft, as it
currently only applies to rotorcraft. First, the FAA notes that the
powered-lift ACS do not use the term ``autorotation.'' Further, the FAA
did not propose any changes to definitions within 14 CFR 1.1 and,
therefore, considers changing the definition of autorotation out of the
scope of this rulemaking. As previously discussed in this preamble, the
powered-lift rulemaking project is the more appropriate vehicle to
contemplate discrete issues in the certification of powered-lift and
airmen that will operate such aircraft, including the applicability of
autorotation as a term. The FAA will reconcile the powered-lift final
rule with this final rule, as applicable.
The ARAC ACS WG commented that the ground instructor certificate
should have its own ACS incorporated by reference. Subpart I of part 61
governs the requirements for the issuance and conditions and
limitations of ground instructor certificates and ratings. Among other
eligibility requirements, a ground instructor is required to take only
a knowledge test; \96\ there is no practical test associated with a
ground instructor certificate or rating. Therefore, the FAA did not
draft a ground instructor PTS or ACS. Additionally, as the regulated
community would not have had an opportunity to inspect the draft, it
would obviate notice and comment procedures under the APA. Therefore,
at this time, a ground instructor standard is out of scope of this
rulemaking but may be considered at a future date.
---------------------------------------------------------------------------
\96\ 14 CFR 61.213.
---------------------------------------------------------------------------
One commenter made several suggestions to address vertical flight
infrastructure standards such as heliports, helistops, helidecks,
Emergency Helicopter Landing Facilities (EHLF), Predesignated Emergency
Landing Areas (PELA), vertiports, vertistops and droneports. The
commenter expressed that these vertical flight infrastructure elements
are safety sensitive, and yet there are little to no test questions
about this subject area, resulting in little training. The commenter
asserted that education materials must contain information about this
subject area before test questions and, thus, requested the FAA to
include vertical flight infrastructure subject matter into certain
handbooks, and, eventually, the powered-lift and helicopter ACS. The
FAA notes that it can revise information in handbooks outside of
rulemaking, as the APA does not apply to these guidance documents, and
the FAA may do so to account for future ACS updates. Additionally, the
majority of the helicopter and powered-lift ACS include the area of
operation ``Airport and Heliport Operations,'' which should encompass
testing (and training) regarding these assets that comprise vertical
infrastructure.
V. Regulatory Notices and Analyses
Federal agencies consider impacts of regulatory actions under a
variety of executive orders and other
[[Page 22514]]
requirements. First, Executive Order 12866 and Executive Order 13563,
as amended by Executive Order 14094 (``Modernizing Regulatory
Review''), direct that each Federal agency shall propose or adopt a
regulation only upon a reasoned determination that the benefits of the
intended regulation justify the costs. Second, the Regulatory
Flexibility Act of 1980 (Pub. L. 96-354) requires agencies to analyze
the economic impact of regulatory changes on small entities. Third, the
Trade Agreements Act (Pub. L. 96-39) prohibits agencies from setting
standards that create unnecessary obstacles to the foreign commerce of
the United States. Fourth, the Unfunded Mandates Reform Act of 1995
(Pub. L. 104-4) requires agencies to prepare a written assessment of
the costs, benefits, and other effects of proposed or final rules that
include a Federal mandate that may result in the expenditure by State,
local, and Tribal governments, in the aggregate, or by the private
sector, of $100,000,000 or more (adjusted annually for inflation) in
any one year. The current threshold after adjustment for inflation is
$177,000,000, using the most current (2022) Implicit Price Deflator for
the Gross Domestic Product. This portion of the preamble summarizes the
FAA's analysis of the economic impacts of this rule.
In conducting these analyses, the FAA determined that this rule:
will result in benefits that justify costs; is not a ``significant
regulatory action'' as defined in section 3(f) of Executive Order 12866
as amended by Executive Order 14094; will not have a significant
economic impact on a substantial number of small entities; will not
create unnecessary obstacles to the foreign commerce of the United
States; and will not impose an unfunded mandate on State, local, or
Tribal governments, or on the private sector.
A. Regulatory Evaluation
On December 12, 2022, the FAA published a Notice of Proposed
Rulemaking (NPRM) and received comments from 39 individuals and
organizations on the proposed rule. However, none of these comments
expressed concerned with economic impacts of the proposal. Therefore,
this regulatory evaluation has no new changes over the regulatory
analyses provided in the NPRM.
Through this rulemaking, the FAA incorporated certain PTS and ACS
by reference into parts 61, 63, and 65 so the standards carry the full
force and effect of regulation. Because of the unique nature of the PTS
and ACS documents, which are lengthy and contain complex and technical
tables, the FAA used the mechanism of IBR. IBR allows Federal agencies
to comply with the requirements of the APA to publish rules in the
Federal Register and the Code of Federal Regulations by referring to
material published elsewhere. Material that is incorporated by
reference has the same legal status as if it were published in full in
the Federal Register and the Code of Federal Regulations.
1. Baseline for the Analysis
Title 14 CFR parts 61, 63, and 65 prescribe the requirements for
airmen to obtain a certificate and/or rating. Each part contains the
general requirements for eligibility, aeronautical knowledge, flight
proficiency, and aeronautical experience requirements, as applicable,
for each certificate and/or rating sought. This generally includes the
requirement to pass a practical test specific to the certificate and/or
rating sought.
The PTS and the ACS impose requirements on all persons seeking an
airman certificate and/or rating. The PTS and ACS require an applicant
seeking a certificate and/or rating to complete specific tasks and
maneuvers to a minimum given standard in order to obtain the applicable
certificate and/or rating. As such, if an applicant does not perform a
task to the prescribed standard, found in the applicable ACS or PTS,
the applicant cannot obtain the applicable certificate and/or rating.
Unsatisfactory performance results in a notice of disapproval and/or
denial of the certificate and/or rating. The PTS and the ACS, which are
finalized by this rule to be incorporated by reference, are the testing
standards that are already in use or the process by which the practical
test is conducted.
2. Benefits
The mechanism of IBR allows Federal Agencies to comply with the
requirement to publish rules in the Federal Register and the CFR by
referring to material already published elsewhere.\97\ IBR functions to
substantially reduce the size of 14 CFR parts 61, 63, and 65, which
would otherwise require the PTS and ACS to be replicated in their
entirety into the regulations, resulting in hundreds of additional
pages including complex and technical tables that would be unsuitable
for the CFR. The FAA will continue to draw on the expertise and
resources of the aviation industry to develop and update the testing
standards and strengthen private-public collaboration and transparency.
IBR will maintain public and private industry collaboration.
Additionally, while the practical tests are currently conducted in
accordance with the PTS and ACS, applicants for a certificate and/or
rating, and pilots completing proficiency checks, will be better
informed about the exact tasks and objectives required to successfully
complete each area of operation because evaluators will be required to
test on the exact tasks contained in the applicable PTS and/or ACS.
Further, instructors are encouraged to utilize the applicable ACS and/
or PTS during training to ensure applicants are equipped with the
knowledge and proficiency to successfully complete a practical test or
proficiency check. Applicants and instructors are, therefore,
benefitted by transparency and specificity in test preparation.
---------------------------------------------------------------------------
\97\ IBR Handbook, Office of the Federal Register (June, 2023).
---------------------------------------------------------------------------
3. Costs
The FAA has evaluated the cost impacts to the stakeholders involved
in this final rule, which includes airmen and the FAA. As discussed in
the NPRM preamble, the FAA noted the addition of tasks within four ACS
(Commercial Pilot for Airplane Category ACS, Private Pilot for
Rotorcraft Category Helicopter Rating ACS, Commercial Pilot for
Rotorcraft Category Helicopter Rating ACS, and Flight Instructor for
Rotorcraft Category Helicopter Rating ACS).\98\ Additionally, since the
NPRM, the FAA notes the addition of the task Flight Solely by Reference
to Instruments within two ACS (Flight Instructor for Rotorcraft
Category Helicopter Rating ACS and Commercial Pilot for Rotorcraft
Category Helicopter Rating ACS) from an outgrowth of ARAC ACS WG
comments.\99\ The FAA determined these additions would add negligible
amount of time to the completion of ACS, but will have no quantifiable
cost impact. These added tasks may be completed concurrently with tasks
already required on the transitioned
[[Page 22515]]
ACS and add a few minutes to the requisite practical test. In sum, the
FAA anticipates this final rule will result in no additional cost
impacts to airmen and the FAA.
---------------------------------------------------------------------------
\98\ Specifically, the NPRM highlighted tasks in the proposed
ACS: (1) the Forward Slip to the Landing task requirement (see note
following Addition of an Airplane Single-Engine Land Rating to an
Existing Commercial Pilot Certificate) in the Commercial Pilot for
Airplane Category ACS; (2) the Approach and Landing with One Engine
Inoperative task (AOO VII, Task C) in the Private Pilot for
Rotorcraft Category Helicopter Rating ACS; (3) the Anti-Torque
System Failure (Oral Only) task (AOO VIII, Task G), the Recovery
from Unusual Flight Attitudes task (AOO VIII, Task M), and the Night
Operations task (AOO I, Task I) in the Commercial Pilot for
Rotorcraft Category Helicopter Rating ACS; and (4) the Recovery from
Unusual Flight Attitudes task (AOO XI, Task E) in the Flight
Instructor for Rotorcraft Category Helicopter Rating ACS. See 87 FR
75962.
\99\ See section IV.B.2.iii of this preamble for additional
discussion on this task.
---------------------------------------------------------------------------
i. Applicants and Airmen
The FAA does not anticipate new costs to applicants for an initial
certificate and/or rating and existing airmen (e.g., pilots completing
proficiency checks, pilots seeking additional certificates and/or
ratings) because there are no substantive changes to the testing
processes, areas of operation, or elements upon which airmen are
currently tested in order to obtain a certificate, as the practical
tests are already conducted in accordance with the applicable ACS/PTS.
Rather, this rule incorporates the documents by reference into the
regulations to ensure compliance with the APA and provide the public
with requisite notice and an opportunity to comment. Therefore,
applicants seeking a certificate and/or rating and currently
certificated pilots performing proficiency checks will not incur
additional costs.
ii. The FAA
The FAA does not anticipate new costs to the agency because the FAA
is not changing the process by which testing is conducted or the manner
in which PTS and ACS are currently implemented.
4. Regulatory Alternatives
The FAA did not consider regulatory alternatives for this final
rule as there are no legally supportable alternatives to mandating the
requirements for airman certification and ensuring consistent standards
for airman certificates and ratings.
B. Regulatory Flexibility Act
The Regulatory Flexibility Act (RFA) of 1980, Public Law 96-354, as
amended by the Small Business Regulatory Enforcement Fairness Act of
1996 (Pub. L. 104-121) and the Small Business Jobs Act of 2010 (Pub. L.
111-240), require Federal agencies to consider the effects of the
regulatory action on small business and other small entities and to
minimize any significant economic impact. The term ``small entities''
comprises small businesses and not-for-profit organizations that are
independently owned and operated and are not dominant in their fields,
and governmental jurisdictions with populations of less than 50,000.
The FAA has not identified any small entities that would be
affected by the final rule because this rule does not affect the
content of the practical test or how the practical test is currently
conducted. While there are many small entities that employ persons who
conduct practical tests on behalf of the Administrator and administer
proficiency checks for airmen, there are no changes to these existing
procedures and exams, in practice (i.e., evaluators already utilize the
applicable ACS and/or PTS). Therefore, for the reasons provided, the
FAA certifies that the rule will not have a significant economic impact
on a substantial number of small entities.
C. International Trade Impact Assessment
The Trade Agreements Act of 1979 (Pub. L. 96-39), as amended by the
Uruguay Round Agreements Act (Pub. L. 103-465), prohibits Federal
agencies from establishing standards or engaging in related activities
that create unnecessary obstacles to the foreign commerce of the United
States. Pursuant to these Acts, the establishment of standards is not
considered an unnecessary obstacle to the foreign commerce of the
United States, so long as the standard has a legitimate domestic
objective, such as the protection of safety, and does not operate in a
manner that excludes imports that meet this objective. The statute also
requires consideration of international standards and, where
appropriate, that they be the basis for U.S. standards. The FAA has
assessed the potential effects of this rule and finds it does not
create an unnecessary obstacle to foreign commerce.
D. Unfunded Mandates Assessment
The Unfunded Mandates Reform Act of 1995 (2 U.S.C. 1531-1538)
governs the issuance of Federal regulations that require unfunded
mandates. An unfunded mandate is a regulation that requires a State,
local, or Tribal government or the private sector to incur direct costs
without the Federal government having first provided the funds to pay
those costs. The FAA determined that this final rule will not result in
the expenditure of $177 million or more by State, local, or Tribal
governments, in the aggregate, or the private sector, in any one year.
E. Paperwork Reduction Act
The Paperwork Reduction Act of 1995 (44 U.S.C. 3507(d)) requires
that the FAA consider the impact of paperwork and other information
collection burdens imposed on the public. The FAA has determined that
there is no new requirement for information collection associated with
this final rule.
F. International Compatibility
In keeping with U.S. obligations under the Convention on
International Civil Aviation, it is FAA policy to conform to
International Civil Aviation Organization (ICAO) Standards and
Recommended Practices to the maximum extent practicable. The FAA has
determined that there are no ICAO Standards and Recommended Practices
that correspond to these regulations.
G. Environmental Analysis
FAA Order 1050.1F identifies FAA actions that are categorically
excluded from preparation of an environmental assessment or
environmental impact statement under the National Environmental Policy
Act (NEPA) in the absence of extraordinary circumstances. The FAA has
determined this rulemaking action qualifies for the categorical
exclusion identified in paragraph 5-6.6f for regulations and involves
no extraordinary circumstances.
VI. Executive Order Determinations
A. Executive Order 13132, Federalism
The FAA has analyzed this final rule under the principles and
criteria of Executive Order 13132, Federalism. The FAA has determined
that this action will not have a substantial direct effect on the
States, or the relationship between the Federal Government and the
States, or on the distribution of power and responsibilities among the
various levels of government, and, therefore, will not have federalism
implications.
B. Executive Order 13175, Consultation and Coordination With Indian
Tribal Governments
Consistent with Executive Order 13175, Consultation and
Coordination with Indian Tribal Governments,\100\ and FAA Order
1210.20, American Indian and Alaska Native Tribal Consultation Policy
and Procedures,\101\ the FAA ensures that Federally Recognized Tribes
(Tribes) are given the opportunity to provide meaningful and timely
input regarding proposed Federal actions that have the potential to
have substantial direct effects on one or more Indian tribes, on the
relationship between the Federal government and Indian tribes, or on
the distribution of power and responsibilities between the Federal
[[Page 22516]]
government and Indian tribes; or to affect uniquely or significantly
their respective Tribes. At this point, the FAA has not identified any
unique or significant effects, environmental or otherwise, on Tribes
resulting from this final rule.
---------------------------------------------------------------------------
\100\ 65 FR 67249 (Nov. 6, 2000).
\101\ FAA Order No. 1210.20 (Jan. 28, 2004), available at
https://www.faa.gov/documentLibrary/media/1210.pdf.
---------------------------------------------------------------------------
C. Executive Order 13211, Regulations That Significantly Affect Energy
Supply, Distribution, or Use
The FAA analyzed this final rule under Executive Order 13211,
Actions Concerning Regulations that Significantly Affect Energy Supply,
Distribution, or Use. The FAA has determined that it is not a
``significant energy action'' under the executive order and is not
likely to have a significant adverse effect on the supply,
distribution, or use of energy.
D. Executive Order 13609, Promoting International Regulatory
Cooperation
Executive Order 13609, Promoting International Regulatory
Cooperation, promotes international regulatory cooperation to meet
shared challenges involving health, safety, labor, security,
environmental, and other issues and to reduce, eliminate, or prevent
unnecessary differences in regulatory requirements. The FAA has
analyzed this action under the policies and agency responsibilities of
Executive Order 13609, and has determined that this action will have no
effect on international regulatory cooperation.
VII. Additional Information
A. Electronic Access and Filing
A copy of the NPRM, all comments received, this final rule, and all
background material may be viewed online at https://www.regulations.gov
using the docket number listed above. A copy of this final rule was
placed in the docket. Electronic retrieval help and guidelines are
available on the website. It is available 24 hours each day, 365 days
each year. An electronic copy of this document may also be downloaded
from the Office of the Federal Register's website at https://www.federalregister.gov and the Government Publishing Office's website
at https://www.govinfo.gov. A copy may also be found at the FAA's
Regulations and Policies website at https://www.faa.gov/regulations_policies.
Copies may also be obtained by sending a request to the Federal
Aviation Administration, Office of Rulemaking, 800 Independence Avenue
SW, Washington, DC 20591, or by calling (202) 267-9677. Commenters must
identify the docket or notice number of this rulemaking.
All documents the FAA considered in developing this final rule,
including economic analyses and technical reports, may be accessed in
the electronic docket for this rulemaking.
B. Small Business Regulatory Enforcement Fairness Act
The Small Business Regulatory Enforcement Fairness Act (SBREFA) of
1996 requires the FAA to comply with small entity requests for
information or advice about compliance with statutes and regulations
within its jurisdiction. A small entity with questions regarding this
document may contact its local FAA official, or the person listed under
the FOR FURTHER INFORMATION CONTACT heading at the beginning of the
preamble. To find out more about SBREFA on the internet, visit https://www.faa.gov/regulations_policies/rulemaking/sbre_act/.
List of Subjects
14 CFR Part 61
Aircraft, Airmen, Aviation safety, Incorporation by reference,
Recreation and recreation areas, Reporting and recordkeeping
requirements, Teachers.
14 CFR Part 63
Aircraft, Airmen, Aviation safety, Incorporation by reference,
Navigation (air), Reporting and recordkeeping requirements.
14 CFR Part 65
Air traffic controllers, Aircraft, Airmen, Airports, Aviation
safety, Incorporation by reference, Reporting and recordkeeping
requirements.
The Amendment
In consideration of the foregoing, the Federal Aviation
Administration amends chapter I of title 14, Code of Federal
Regulations as follows:
PART 61--CERTIFICATION: PILOTS, FLIGHT INSTRUCTORS, AND GROUND
INSTRUCTORS
0
1. The authority citation for part 61 is revised to read as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113, 44701-44703, 44707,
44709-44711, 44729, 44903, 45102-45103, 45301-45302; Sec. 2307 Pub.
L. 114-190, 130 Stat. 615 (49 U.S.C. 44703 note); and sec. 318, Pub.
L. 115-254, 132 Stat. 3186 (49 U.S.C. 44703 note).
0
2. Add Sec. 61.14 to read as follows:
Sec. 61.14 Incorporation by Reference.
Certain material is incorporated by reference into this part with
the approval of the Director of the Federal Register under 5 U.S.C.
552(a) and 1 CFR part 51. All approved incorporation by reference (IBR)
material is available for inspection at the Federal Aviation
Administration (FAA) and at the National Archives and Records
Administration (NARA). Contact FAA, Training and Certification Group,
202-267-1100, faa.gov">ACSPTSinquiries@faa.gov. For information on the
availability of this material at NARA, visit www.archives.gov/federal-register/cfr/ibr-locations or email [email protected]. The
material may be obtained from the Federal Aviation Administration, 800
Independence Avenue SW, Washington DC 20591, 866-835-5322, www.faa.gov/training_testing.
(a) Practical Test Standards. (1) FAA-S-8081-3B, Recreational Pilot
Practical Test Standards for Airplane Category and Rotorcraft Category,
November 2023; IBR approved for Sec. 61.43 and appendix A to this
part.
(2) FAA-S-8081-7C, Flight Instructor Practical Test Standards for
Rotorcraft Category Gyroplane Rating, November 2023; IBR approved for
Sec. 61.43 and appendix A to this part.
(3) FAA-S-8081-8C, Flight Instructor Practical Test Standards for
Glider Category, November 2023; IBR approved for Sec. 61.43 and
appendix A to this part.
(4) FAA-S-8081-9E, Flight Instructor Instrument Practical Test
Standards for Airplane Rating and Helicopter Rating, November 2023; IBR
approved for Sec. 61.43 and appendix A to this part.
(5) FAA-S-8081-15B, Private Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating, November 2023; IBR approved for
Sec. 61.43 and appendix A to this part.
(6) FAA-S-8081-16C, Commercial Pilot Practical Test Standards for
Rotorcraft Category Gyroplane Rating, November 2023; IBR approved for
Sec. 61.43 and appendix A to this part.
(7) FAA-S-8081-17A, Private Pilot Practical Test Standards for
Lighter-Than-Air Category, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(8) FAA-S-8081-18A, Commercial Pilot Practical Test Standards for
Lighter-Than-Air Category, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(9) FAA-S-8081-20A, Airline Transport Pilot and Aircraft Type
Rating Practical Test Standards for Rotorcraft Category Helicopter
Rating, November 2023; IBR approved for Sec. Sec. 61.43 and 61.58, and
appendix A to this part.
(10) FAA-S-8081-22A, Private Pilot Practical Test Standards for
Glider Category, November 2023; IBR approved for Sec. 61.43 and
appendix A to this part.
[[Page 22517]]
(11) FAA-S-8081-23B, Commercial Pilot Practical Test Standards for
Glider Category, November 2023; IBR approved for Sec. 61.43 and
appendix A to this part.
(12) FAA-S-8081-29A, Sport Pilot and Sport Pilot Flight Instructor
Rating Practical Test Standards for Airplane Category, Rotorcraft
Category, and Glider Category, November 2023; IBR approved for
Sec. Sec. 61.43, 61.321, and 61.419, and appendix A to this part.
(13) FAA-S-8081-30A, Sport Pilot and Sport Pilot Flight Instructor
Rating Practical Test Standards for Lighter-Than-Air Category, November
2023; IBR approved for Sec. Sec. 61.43, 61.321, and 61.419, and
appendix A to this part.
(14) FAA-S-8081-31A, Sport Pilot and Sport Pilot Flight Instructor
Practical Test Standards for Powered Parachute Category and Weight-
Shift-Control Aircraft Category, November 2023; IBR approved for
Sec. Sec. 61.43, 61.321, and 61.419, and appendix A to this part.
(15) FAA-S-8081-32A Private Pilot Practical Test Standards for
Powered Parachute Category and Weight-Shift-Control Aircraft Category,
November 2023; IBR approved for Sec. 61.43 and appendix A to this
part.
(b) Airman Certification Standards. (1) FAA-S-ACS-2, Commercial
Pilot for Powered-Lift Category Airman Certification Standards,
November 2023; IBR approved for Sec. 61.43 and appendix A to this
part.
(2) FAA-S-ACS-3, Instrument Rating--Powered-Lift Airman
Certification Standards, November 2023; IBR approved for Sec. Sec.
61.43 and 61.57, and appendix A to this part.
(3) FAA-S-ACS-6C, Private Pilot for Airplane Category Airman
Certification Standards, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(4) FAA-S-ACS-7B, Commercial Pilot for Airplane Category Airman
Certification Standards, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(5) FAA-S-ACS-8C, Instrument Rating--Airplane Airman Certification
Standards, November 2023; IBR approved for Sec. Sec. 61.43 and 61.57,
and appendix A to this part.
(6) FAA-S-ACS-11A, Airline Transport Pilot and Type Rating for
Airplane Category Airman Certification Standards, November 2023; IBR
approved for Sec. Sec. 61.43 and 61.58, and appendix A to this part.
(7) FAA-S-ACS-13, Private Pilot for Powered-Lift Category Airman
Certification Standards, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(8) FAA-S-ACS-14, Instrument Rating--Helicopter Airman
Certification Standards, November 2023; IBR approved for Sec. Sec.
61.43 and 61.57, and appendix A to this part.
(9) FAA-S-ACS-15, Private Pilot for Rotorcraft Category Helicopter
Rating Airman Certification Standards, November 2023; IBR approved for
Sec. 61.43 and appendix A to this part.
(10) FAA-S-ACS-16, Commercial Pilot for Rotorcraft Category
Helicopter Rating Airman Certification Standards, November 2023; IBR
approved for Sec. 61.43 and appendix A to this part.
(11) FAA-S-ACS-17, Airline Transport Pilot and Type Rating for
Powered-Lift Category Airman Certification Standards, November 2023;
IBR approved for Sec. Sec. 61.43 and 61.58, and appendix A to this
part.
(12) FAA-S-ACS-25, Flight Instructor for Airplane Category Airman
Certification Standards, November 2023; IBR approved for Sec. 61.43
and appendix A to this part.
(13) FAA-S-ACS-27, Flight Instructor for Powered-Lift Category
Airman Certification Standards, November 2023; IBR approved for Sec.
61.43 and appendix A to this part.
(14) FAA-S-ACS-28, Flight Instructor--Instrument Rating Powered-
Lift Airman Certification Standards, November 2023; IBR approved for
Sec. 61.43 and appendix A to this part.
(15) FAA-S-ACS-29, Flight Instructor for Rotorcraft Category
Helicopter Rating Airman Certification Standards, November 2023; IBR
approved for Sec. 61.43 and appendix A to this part.
0
3. Amend Sec. 61.43 by revising paragraphs (a)(1) through (3) to read
as follows:
Sec. 61.43 Practical tests: General procedures.
(a) * * *
(1) Performing the tasks specified in the areas of operation
contained in the applicable Airman Certification Standards or Practical
Test Standards (incorporated by reference, see Sec. 61.14) as listed
in appendix A of this part for the airman certificate or rating sought;
(2) Demonstrating mastery of the aircraft by performing each task
required by paragraph (a)(1) of this section successfully;
(3) Demonstrating proficiency and competency of the tasks required
by paragraph (a)(1) of this section within the approved standards; and
* * * * *
0
4. Amend Sec. 61.57 by revising paragraph (d)(1) introductory text to
read as follows:
Sec. 61.57 Recent Flight Experience: Pilot in Command.
* * * * *
(d) * * *
(1) Except as provided in paragraph (e) of this section, a person
who has failed to meet the instrument experience requirements of
paragraph (c) of this section for more than six calendar months may
reestablish instrument currency only by completing an instrument
proficiency check. The instrument proficiency check must include the
areas of operation contained in the applicable Airman Certification
Standards (incorporated by reference, see Sec. 61.14) as listed in
appendix A of this part as appropriate to the rating held.
* * * * *
0
5. Amend Sec. 61.58 by revising paragraph (d)(1) to read as follows:
Sec. 61.58 Pilot in command proficiency check: Operation of an
aircraft that requires more than one pilot flight crewmember or is
turbojet-powered.
* * * * *
(d) * * *
(1) A pilot-in-command proficiency check conducted by a person
authorized by the Administrator, consisting of the areas of operation
contained in the applicable Airman Certification Standards or Practical
Test Standards (incorporated by reference, see Sec. 61.14); as listed
in appendix A of this part appropriate to the rating held, in an
aircraft that is type certificated for more than one pilot flight
crewmember or is turbojet powered;
* * * * *
0
6. Amend Sec. 61.157 by revising paragraphs (e) introductory text, and
(e)(1) through (3) to read as follows:
Sec. 61.157 Flight proficiency.
* * * * *
(e) Areas of Operation. A practical test will include normal and
abnormal procedures, as applicable, within the areas of operation for
practical tests for an airplane category and powered-lift category
rating.
(1) For an airplane category--single engine class rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Landings;
(iv) In-flight maneuvers;
(v) Stall Prevention;
(vi) Instrument procedures;
(vii) Emergency operations; and
(viii) Postflight procedures.
(2) For an airplane category--multiengine class rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Landings;
[[Page 22518]]
(iv) In-flight maneuvers;
(v) Stall Prevention.
(vi) Instrument procedures;
(vii) Emergency operations; and
(viii) Postflight procedures.
(3) For a powered-lift category rating:
(i) Preflight preparation;
(ii) Preflight procedures;
(iii) Takeoffs and Departure phase;
(iv) In-flight maneuvers;
(v) Instrument procedures;
(vi) Landings and approaches to landings;
(vii) Emergency operations; and
(viii) Postflight procedures.
* * * * *
0
7. Amend Sec. 61.321 by revising paragraph (b) to read as follows:
Sec. 61.321 How do I obtain privileges to operate an additional
category or class of light-sport aircraft?
* * * * *
(b) Successfully complete a proficiency check from an authorized
instructor, other than the instructor who trained you, consisting of
the tasks in the appropriate areas of operation contained in the
applicable Practical Test Standards (incorporated by reference, see
Sec. 61.14) as listed in appendix A of this part for the additional
light-sport aircraft privilege you seek;
* * * * *
0
8. Amend Sec. 61.419 by revising paragraph (b) to read as follows:
Sec. 61.419 How do I obtain privileges to provide training in an
additional category or class of light-sport aircraft?
* * * * *
(b) Successfully complete a proficiency check from an authorized
instructor, other than the instructor who trained you, consisting of
the tasks in the appropriate areas of operation contained in the
applicable Practical Test Standards (incorporated by reference, see
Sec. 61.14) as listed in appendix A of this part for the additional
category and class flight instructor privilege you seek;
* * * * *
0
9. Add appendix A to part 61 to read as follows:
Appendix A to Part 61--Airman Certification Standards and Practical
Test Standards
------------------------------------------------------------------------
Then this ACS/PTS (incorporated
If you are seeking this certificate, by reference, see Sec. 61.14)
rating, and/or privilege . . . is applicable:
------------------------------------------------------------------------
Airline Transport Pilot Certificate; FAA-S-ACS-11A, Airline
Airplane Category--Single-Engine Land Transport Pilot and Type
Rating, Airplane Category--Single- Rating for Airplane Category
Engine Sea Rating, Airplane Category-- Airman Certification
Multiengine Land Rating, Airplane Standards, November 2023.
Category--Multiengine Sea Rating.
Airline Transport Pilot Certificate; FAA-S-8081-20A, Airline
Rotorcraft Category--Helicopter Rating. Transport Pilot and Aircraft
Type Rating Practical Test
Standards for Rotorcraft
Category Helicopter Rating,
November 2023.
Airline Transport Pilot Certificate; FAA-S-ACS-17, Airline Transport
Powered-Lift Category. Pilot and Type Rating for
Powered-Lift Category Airman
Certification Standards,
November 2023.
Commercial Pilot Certificate; Airplane FAA-S-ACS-7B, Commercial Pilot
Category--Single-Engine Land Rating, for Airplane Category Airman
Airplane Category--Single-Engine Sea Certification Standards,
Rating, Airplane Category--Multiengine November 2023.
Land Rating, Airplane Category--
Multiengine Sea Rating.
Commercial Pilot Certificate; FAA-S-ACS-16, Commercial Pilot
Rotorcraft Category--Helicopter Rating. for Rotorcraft Category
Helicopter Rating Airman
Certification Standards,
November 2023.
Commercial Pilot Certificate; FAA-S-8081-16C, Commercial
Rotorcraft Category--Gyroplane Rating. Pilot Practical Test Standards
for Rotorcraft Category
Gyroplane Rating, November
2023.
Commercial Pilot Certificate; Powered- FAA-S-ACS-2, Commercial Pilot
Lift Category. for Powered-Lift Category
Airman Certification
Standards, November 2023.
Commercial Pilot Certificate; Glider FAA-S-8081-23B, Commercial
Category. Pilot Practical Test Standards
for Glider Category, November
2023.
Commercial Pilot Certificate; Lighter- FAA-S-8081-18A, Commercial
Than-Air Category--Airship Rating, Pilot Practical Test Standards
Lighter-Than-Air Category--Balloon for Lighter-Than-Air Category,
Rating. November 2023.
Private Pilot Certificate; Airplane FAA-S-ACS-6C, Private Pilot for
Category--Single-Engine Land Rating, Airplane Category Airman
Airplane Category--Single-Engine Sea Certification Standards,
Rating, Airplane Category--Multiengine November 2023.
Land Rating, Airplane Category--
Multiengine Sea Rating.
Private Pilot Certificate; Rotorcraft FAA-S-ACS-15, Private Pilot for
Category--Helicopter Rating. Rotorcraft Category Helicopter
Rating Airman Certification
Standards, November 2023.
Private Pilot Certificate; Rotorcraft FAA-S-8081-15B, Private Pilot
Category--Gyroplane Rating. Practical Test Standards for
Rotorcraft Category Gyroplane
Rating, November 2023.
Private Pilot Certificate; Powered-Lift FAA-S-ACS-13, Private Pilot for
Category. Powered-Lift Category Airman
Certification Standards,
November 2023.
Private Pilot Certificate; Glider FAA-S-8081-22A, Private Pilot
Category. Practical Test Standards for
Glider Category, November
2023.
Private Pilot Certificate; Lighter-Than- FAA-S-8081-17A, Private Pilot
Air Category--Airship Rating, Lighter- Practical Test Standards for
Than-Air Category--Balloon Rating. Lighter-Than-Air Category,
November 2023.
Private Pilot Certificate; Powered FAA-S-8081-32A, Private Pilot
Parachute Category--Land Rating, Practical Test Standards for
Powered Parachute Category--Sea Powered Parachute Category and
Rating, Weight-Shift-Control Aircraft Weight-Shift-Control Category,
Category--Land Rating, Weight-Shift- November 2023.
Control Aircraft Category--Sea Rating.
Recreational Pilot Certificate; FAA-S-8081-3B, Recreational
Airplane Category--Single-Engine Land Pilot Practical Test Standards
Rating, Airplane Category--Single- for Airplane Category and
Engine Sea Rating, Rotorcraft Rotorcraft Category, November
Category--Helicopter Rating, 2023.
Rotorcraft Category--Gyroplane Rating.
Sport Pilot Certificate; Airplane FAA-S-8081-29A, Sport Pilot and
Category--Single-Engine Land Sport Pilot Flight Instructor
Privileges, Airplane Category--Single- Rating Practical Test
Engine Sea Privileges, Rotorcraft Standards for Airplane
Category--Gyroplane Privileges, Glider Category, Rotorcraft Category,
Category. and Glider Category, November
2023.
[[Page 22519]]
Flight Instructor Certificate with a
Sport Pilot Rating; Airplane Category--
Single-Engine Privileges, Rotorcraft
Category--Gyroplane Privileges, Glider
Category.
Sport Pilot Certificate; Lighter-Than- FAA-S-8081-30A, Sport Pilot and
Air Category--Airship Privileges, Sport Pilot Flight Instructor
Lighter-Than-Air Category--Balloon Rating Practical Test
Privileges. Standards for Lighter-Than-Air
Category, November 2023.
Flight Instructor Certificate with a
Sport Pilot Rating; Lighter-Than-Air
Category--Airship Privileges, Lighter-
Than-Air Category--Balloon Privileges.
Sport Pilot Certificate; Powered FAA-S-8081-31A, Sport Pilot and
Parachute Category--Land Privileges, Sport Pilot Flight Instructor
Powered Parachute Category--Sea Rating Practical Test
Privileges, Weight-Shift-Control Standards for Powered
Aircraft Category--Land Privileges, Parachute Category and Weight-
Weight-Shift-Control Aircraft Shift-Control Category,
Category--Sea Privileges. November 2023.
Flight Instructor Certificate with a
Sport Pilot Rating; Powered Parachute
Category Privileges, Weight-Shift-
Control Aircraft Category Privileges.
Instrument Rating--Airplane Instrument FAA-S-ACS-8C, Instrument
Proficiency Check--Airplane. Rating--Airplane Airman
Certification Standards,
November 2023.
Instrument Rating--Helicopter FAA-S-ACS-14, Instrument
Instrument Proficiency Check-- Rating--Helicopter Airman
Helicopter. Certification Standards,
November 2023.
Instrument Rating--Powered-Lift FAA-S-ACS-3, Instrument Rating--
Instrument Proficiency Check--Powered- Powered-Lift Airman
Lift. Certification Standards,
November 2023.
Flight Instructor Certificate; Airplane FAA-S-ACS-25, Flight Instructor
Category--Single Engine Rating for Airplane Category Airman
Airplane Category--Multiengine Rating. Certification Standards,
November 2023.
Flight Instructor Certificate; FAA-S-ACS-29, Flight Instructor
Rotorcraft Category--Helicopter Rating. for Rotorcraft Category
Helicopter Rating Airman
Certification Standards,
November 2023.
Flight Instructor Certificate; FAA-S-8081-7C, Flight
Rotorcraft Category--Gyroplane Rating. Instructor Practical Test
Standards for Rotorcraft
Category Gyroplane Rating,
November 2023.
Flight Instructor Certificate; Powered- FAA-S-ACS-27, Flight Instructor
lift Category. for Powered-Lift Category
Airman Certification
Standards, November 2023.
Flight Instructor Certificate; Glider FAA-S-8081-8C, Flight
Category. Instructor Practical Test
Standards for Glider Category,
November 2023.
Flight Instructor Certificate; FAA-S-8081-9E, Flight
Instrument--Airplane Rating, Instructor Instrument
Instrument--Helicopter Rating. Practical Test Standards for
Airplane Rating and Helicopter
Rating, November 2023.
Flight Instructor Certificate; FAA-S-ACS-28, Flight
Instrument--Powered-Lift Rating. Instructor--Instrument Rating
Powered-Lift Airman
Certification Standards,
November 2023.
Aircraft Type Rating--Airplane......... FAA-S-ACS-11A, Airline
Transport Pilot and Type
Rating for Airplane Category
Airman Certification
Standards, November 2023.
Aircraft Type Rating--Helicopter....... FAA-S-8081-20A, Airline
Transport Pilot and Aircraft
Type Rating Practical Test
Standards for Rotorcraft
Category Helicopter Rating,
November 2023.
Aircraft Type Rating--Powered-Lift..... FAA-S-ACS-17, Airline Transport
Pilot and Type Rating for
Powered-Lift Category Airman
Certification Standards,
November 2023.
Pilot-in-Command Proficiency Check-- FAA-S-ACS-11A, Airline
Airplane. Transport Pilot and Type
Rating for Airplane Category
Airman Certification
Standards; November 2023.
Pilot-in-Command Proficiency Check-- FAA-S-8081-20A, Airline
Helicopter. Transport Pilot and Aircraft
Type Rating Practical Test
Standards for Rotorcraft
Category Helicopter Rating,
November 2023.
Pilot-in-Command Proficiency Check-- FAA-S-ACS-17, Airline Transport
Powered-Lift. Pilot and Type Rating for
Powered-Lift Category Airman
Certification Standards,
November 2023.
------------------------------------------------------------------------
PART 63--CERTIFICATION: FLIGHT CREWMEMBERS OTHER THAN PILOTS
0
10. The authority citation for part 63 continues to read as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113, 44701-44703, 44707,
44709-44711, 45102-45103, 45301-45302.
0
11. Revise Sec. 63.39 to read as follows:
Sec. 63.39 Skill requirements.
(a) An applicant for a flight engineer certificate with a class
rating must pass a practical test in the class of airplane for which a
rating is sought. To pass the practical test for a flight engineer
certificate, the applicant must satisfactorily demonstrate the
objectives in the areas of operation specified in the Flight Engineer
Practical Test Standards for Reciprocating Engine, Turbopropeller, and
Turbojet Powered Aircraft (incorporated by reference, see paragraph (c)
of this section). The test may only be given in an airplane specified
in Sec. 63.37(a).
(b) The applicant must--
(1) Show that the applicant can satisfactorily perform preflight
inspection, servicing, starting, pretakeoff, and postlanding
procedures;
(2) In flight, show that the applicant can satisfactorily perform
the normal duties and procedures relating to the airplane, airplane
engines, propellers (if appropriate), systems, and appliances; and
(3) In flight, in an airplane simulator, or in an approved flight
engineer training device, show that the applicant can satisfactorily
perform emergency duties and procedures and recognize and take
appropriate action for malfunctions of the airplane, engines,
propellers (if appropriate), systems and appliances.
(c) FAA-S-8081-21A, Flight Engineer Practical Test Standards for
Reciprocating Engine, Turbopropeller, and Turbojet Powered Aircraft,
November 2023, is incorporated by reference into this section with the
approval of the Director of the Federal
[[Page 22520]]
Register under 5 U.S.C. 552(a) and 1 CFR part 51. All approved material
is available for inspection at the Federal Aviation Administration
(FAA) and the National Archives and Records Administration (NARA).
Contact FAA, Training and Certification Group, 202-267-1100,
faa.gov">ACSPTSinquiries@faa.gov, www.faa.gov/training_testing. For information
on the availability of this material at NARA, visit www.archives.gov/federal-register/cfr/ibr-locations or email [email protected]. The
material may be obtained from FAA, 800 Independence Avenue SW,
Washington, DC 20591, 866-835-5322, www.faa.gov/training_testing.
PART 65--CERTIFICATION: AIRMEN OTHER THAN FLIGHT CREWMEMBERS
0
12. The authority citation for part 65 continues to read as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113, 44701-44703, 44707,
44709-44711, 45102-45103, 45301-45302.
0
13. Amend Sec. 65.23 by revising the introductory text and paragraph
(a) to read as follows:
Sec. 65.23 Incorporation by reference.
Certain material is incorporated by reference into this part with
the approval of the Director of the Federal Register under 5 U.S.C.
552(a) and 1 CFR part 51. This material is available for inspection at
the Federal Aviation Administration (FAA) and at the National Archives
and Records Administration (NARA). Contact FAA, Certification and
Training Group, 202-267-1100, faa.gov">ACSPTSinquiries@faa.gov. For information
on the availability of this material at NARA, email
[email protected], or go to www.archives.gov/federal-register/cfr/ibr-locations. The material may be obtained from the source in the
following paragraph of this section.
(a) Federal Aviation Administration, 800 Independence Avenue SW,
Washington, DC 20591, 866-835-5322, www.faa.gov/training_testing.
(1) FAA-S-8081-10E, Aircraft Dispatcher Practical Test Standards,
November 2023; IBR approved for Sec. 65.59.
(2) FAA-S-8081-25C, Parachute Rigger Practical Test Standards,
November 2023; IBR approved for Sec. Sec. 65.115, 65.119, and 65.123.
(3) FAA-S-ACS-1, Aviation Mechanic General, Airframe, and
Powerplant Airman Certification Standards, November 1, 2021; IBR
approved for Sec. Sec. 65.75 and 65.79.
* * * * *
0
14. Revise Sec. 65.59 to read as follows:
Sec. 65.59 Skill requirements.
An applicant for an aircraft dispatcher certificate must pass a
practical test given by the Administrator, with respect to any one type
of large aircraft used in air carrier operations. To pass the practical
test for an aircraft dispatcher certificate, the applicant must
satisfactorily demonstrate the objectives in the areas of operation
specified in the Aircraft Dispatcher Practical Test Standards
(incorporated by reference, see Sec. 65.23).
0
15. Amend Sec. 65.115 by revising paragraphs (a) and (c) to read as
follows:
Sec. 65.115 Senior parachute rigger certificate: Experience,
knowledge, and skill requirements.
* * * * *
(a) Present evidence satisfactory to the Administrator that the
applicant has packed at least 20 parachutes of each type for which the
applicant seeks a rating, in accordance with the manufacturer's
instructions and under the supervision of a certificated parachute
rigger holding a rating for that type or a person holding an
appropriate military rating;
* * * * *
(c) Pass an oral and practical test showing the applicant's ability
to pack and maintain at least one type of parachute in common use,
appropriate to the type rating the applicant seeks. To pass the oral
and practical test for a senior parachute rigger certificate, the
applicant must satisfactorily demonstrate the objectives in the areas
of operation applicable to a senior parachute rigger specified in the
Parachute Rigger Practical Test Standards (incorporated by reference,
see Sec. 65.23), appropriate to the type rating sought.
0
16. Amend Sec. 65.119 by revising paragraphs (a) and (c) to read as
follows:
Sec. 65.119 Master parachute rigger certificate: Experience,
knowledge, and skill requirements.
* * * * *
(a) Present evidence satisfactory to the Administrator that the
applicant has had at least 3 years of experience as a parachute rigger
and has satisfactorily packed at least 100 parachutes of each of two
types in common use, in accordance with the manufacturer's
instructions--
* * * * *
(c) Pass an oral and practical test showing the applicant's ability
to pack and maintain two types of parachutes in common use, appropriate
to the type ratings the applicant seeks. To pass the oral and practical
test for a master parachute rigger certificate, the applicant must
satisfactorily demonstrate the objectives in the areas of operation
applicable to a master parachute rigger specified in the Parachute
Rigger Practical Test Standards (incorporated by reference, see Sec.
65.23), as appropriate to the type rating sought.
0
17. Revise Sec. 65.123 to read as follows:
Sec. 65.123 Additional type ratings: Requirements.
A certificated parachute rigger who applies for an additional type
rating must--
(a) Present evidence satisfactory to the Administrator that the
applicant has packed at least 20 parachutes of the type for which the
applicant seeks a rating, in accordance with the manufacturer's
instructions and under the supervision of a certificated parachute
rigger holding a rating for that type or a person holding an
appropriate military rating; and
(b) Pass a practical test, to the satisfaction of the
Administrator, showing the applicant's ability to pack and maintain the
type of parachute, appropriate to the type rating sought. To pass the
practical test for an additional type rating, the applicant must
satisfactorily demonstrate the objectives in the area of operation
specified in the Parachute Rigger Practical Test Standards
(incorporated by reference, see Sec. 65.23), applicable to the type
rating sought.
Issued under authority provided by 49 U.S.C. 106(f), 40113,
44701, 44702, and 44703 in Washington, DC.
Michael Gordon Whitaker,
Administrator.
[FR Doc. 2024-06644 Filed 3-29-24; 8:45 am]
BILLING CODE 4910-13-P
