Please make sure you have all of the following prior to the test day:
Training records, Logbook, Medical Certificate Class 1 or 2. PPL, CPL, MPL or ATPL
The following forms will need to be available from the school or Flight Examiner:- 61-3CT, 61-1496
Eligibility certification – the examiner must ensure that an appropriate person of the training provider has certified in writing that the applicant is eligible to take the flight test.
Test Duration (Approximate)
Oral questioning 45min-1 hour
Flight Test 1.5 hrs
Quick pre-test checklist (bring this with you)
Today’s W&B (T/O and landing) within limits.
Performance tables computed (runway, surface, DA, obstacles).
Flight Plan with headings/times/fuel, diversion blank ready. (if required)
NOTAMs/Weather printed or cached; alternates/last-light if relevant.
EFB & backups (power, paper minima, critical frequencies, LSALT method).
Standard briefs ready: departure, diversion, PFL/precautionary, approach/landing gates.
General guidance for Knowledge Assessment of CASA Flight Tests
When sitting any category of oral examination for a flight test the Flight Examiner may ask you any questions up to and including the category of license for which you are presenting.
Generally Flight Examiners will restrict their questioning to the knowledge requirements of the MOS Schedule 5 listed on the relevant flight test form.
The best way to prepare for the oral component of a flight test used is to study the flight test form and the subject matter carefully and thoroughly well in advance of the scheduled flight test date.
This will enable you to sit the test with the level of confidence you require and the of level of knowledge you require to satisfy the Flight Examiner.
If you answer questions correctly and without hesitation to the satisfaction of the Flight Examiner, the questioning will be brief. If however, you are unsure of the answers and make mistakes the Flight Examiner will go further with the questioning.
Flight examiners will also examine your KDR's (Knowledge Deficiency Reports) and may ask questions about the deficient items even though a previous flight instructor has checked you on these items. Make sure that you understand where you went wrong in the written exams and study the areas carefully because questions may be asked about these topics.
When answering questions, take a moment to think about what the Flight Examiner is actually asking you. Often candidates do not listen to the question and start talking about something else. The questions the flight examiner asks will be clear, simple and unambiguous. A simple question requires a simple answer - just answer the question and do not offer any more information. If the Flight Examiner requires further information they will ask for it. If you do not understand the question seek clarification before answering.
MOS Schedule 2 Competency Standards NTS1
NTS 1 Examination items for every flight test!
NTS1 Non-technical skills 1
1 Unit description
This unit describes the knowledge and skills required to manage a safe flight.
2 Elements and performance criteria
2.1 NTS1.1 – Maintain effective lookout
(a) maintain traffic separation using a systematic visual scan technique at a rate determined by traffic density, visibility and terrain;
(b) maintain radio listening watch and interpret transmissions to determine traffic location and intentions;
(c) perform airspace-cleared procedure before commencing any manoeuvre.
2.2 NTS1.2 – Maintain situational awareness
(a) monitor all aircraft systems using a systematic scan technique;
(b) collect information to facilitate ongoing system management;
(c) monitor flight environment for deviations from planned operations;
(d) collect flight environment information to update planned operations.
2.3 NTS1.3 – Assess situations and make decisions
(a) identify problems;
(b) analyse problems;
(c) identify solutions;
(d) assess solutions and risks;
(e) decide on a course of action;
(f) communicate plans of action (if appropriate);
(g) allocate tasks for action (if appropriate);
(h) take actions to achieve optimum outcomes for the operation;
(i) monitor progress against plan;
(j) re-evaluate plan to achieve optimum outcomes.
2.4 NTS1.4 – Set priorities and manage tasks
(a) organise workload and priorities to ensure optimum outcome of the flight;
(b) plan events and tasks to occur sequentially;
(c) anticipate events and tasks to ensure sufficient opportunity for completion;
(d) use technology to reduce workload and improve cognitive and manipulative activities.
2.5 NTS1.5 – Maintain effective communications and interpersonal relationships
(a) establish and maintain effective and efficient communications and interpersonal relationships with all stakeholders to ensure the optimum outcome of the flight;
(b) define and explain objectives to stakeholders;
(c) demonstrate a level of assertiveness that ensures the optimum completion of the flight.
3 Range of variables
(a) simulated conditions may be used where appropriate.
4 Underpinning knowledge of the following:
(a) effective communication under normal and non-normal circumstances;
(b) task management.
MOS Schedule 2 Competency Standards NTS2
NTS 2 Examination items for every flight test!
NTS2 Non-technical skills 2
1 Unit description
This unit describes the knowledge and skills required to recognise, direct and manage threats and errors during flight operations.
2 Elements and performance criteria
2.1 NTS2.1 – Recognise and manage threats
(a) identify relevant environmental or operational threats that are likely to affect the safety of the flight;
(b) identify when competing priorities and demands may represent a threat to the safety of the flight;
(c) develop and implement countermeasures to manage threats;
(d) monitor and assess flight progress to ensure a safe outcome, or modify actions when a safe outcome is not assured.
2.2 NTS2.2 – Recognise and manage errors
(a) apply checklists and standard operating procedures to prevent aircraft handling, procedural or communication errors;
(b) identify committed errors before safety is affected or the aircraft enters an undesired state;
(c) monitor the following to collect and analyse information to identify potential or actual errors:
(i) aircraft systems using a systematic scan technique;
(ii) the flight environment;
(iii) other crew;
(d) implement countermeasures to prevent errors or take action in the time available to correct errors before the aircraft enters an undesired state.
2.3 NTS2.3 – Recognise and manage undesired aircraft state
(a) recognise an undesired aircraft state;
(b) prioritise tasks to ensure an undesired aircraft state is managed effectively;
(c) apply corrective actions to recover an undesired aircraft state in a safe and timely manner.
3 Range of variables
(a) Reserved;
(b) simulated conditions may be used where appropriate.
4 Underpinning knowledge of the following:
(a) effective communication under normal and non-normal circumstances;
(b) threat and error management detailing processes that can be used to identify and mitigate or control threats and errors;
(c) the application of situational awareness to identifying real or potential environmental or operational threats to flight safety;
(d) developing and implementing plans of action for the following:
(i) removing and mitigating threats;
(ii) removing and mitigating errors;
(e) undesired aircraft states, including prevention, identifying and controlling;
(f) how an undesired aircraft state can develop from an unmanaged threat or error;
(g) what aspects of multi-crew operations (if applicable) can prevent an undesired aircraft state;
(h) use of checklists and standard operating procedures to prevent errors.
(i) task management, including:
(i) workload organisation and priority setting to ensure optimum safe outcome of the flight;
(ii) event planning to occur in a logical and sequential manner;
(iii) anticipating events to ensure sufficient opportunity is available for completion;
(iv) using technology to reduce workload and improve cognitive and manipulative activities;
(v) task prioritisation and protection whilst filtering and managing real time information.
MEA Class Rating Flight Tolerances
SECTION 1: Flight tolerances
Table 1: Aeroplane general flight tolerances – private level
Applicability
The flight tolerances in this subsection apply to the following licences and ratings:
aircraft class rating;
Requirements
A person is required to perform flight manoeuvres within the flight tolerances mentioned in this table to be assessed as competent in the associated unit of competency.
Flight tolerances
Taxing aircraft ±1.5 metres of centreline
Nominated heading ±10°
Climb airspeed -0 / +5 kts
Level off from climb and descent ±150 ft
Straight and level Altitude ±150 ft IAS ±10 kts
Power descent airspeed ±10 kts
Glide -5 / +10 kts
Turns Angle of Bank ±5°
Turns onto nominated headings Heading ±10°
Steep Turn Heading ±10° Height ±150 ft
Final approach airspeed -0 / +5 kts
Landing Touchdown ±120 m Centreline tracking ±2 m
Asymmetric flight Heading – initial ±20° Heading - sustained ±5° IAS -0 +5 kts
Limited panel instrument flying Heading ±15° IAS ±10 kts or ±M0.02 Height ±200 ft
MEA Class Rating Flight Examiner Handbook Content
Press the button below to go to the CASA website
The sections that are relevant to the MEA Class Rating Flight test are Section 4 NTS Assessment P49-P64 and Section 16 Class Rating Multi Engine Aeroplane Flight Test P172-P179.
MEA Class Test Form 61-1496
Press the button below to go to the CASA website
This is the test form that your Flight Examiner will use to assess your Class Rating Multi Engine Aeroplane Flight Test.
FAQ MEA Class Rating
Frequently Asked Questions MEA
Your Vmc, Vsse, Vr, Vy, Vx, Vyse (blue line); typical OEI climb rate at today’s weight/DA; T/O & landing distances; short/soft-field techniques; runway-length go/stop logic.
No. I’m looking for correct application of Part 91/Part 61 and the POH, not rote quotes.
Can’t explain identify–verify–feather safely.
Confusion about crossfeed (when/how/limitations).
Poor EFATO brief (below Vsse vs above Vyse actions).
No grasp of W&B envelope or today’s landing performance.
No Vmc demonstration. The test assesses asymmetric control and performance using safe, POH-based speeds; Vmc is treated as a certification datum, not a manoeuvre target.
Enough to prove you can operate, diagnose, and manage: props/feathering, unfeathering accumulator (if fitted), fuel system & crossfeed, alternates/induction air, gear & flap systems, and electrical/charging.
A short, standard brief in your words, covering stop/go gates, below-Vsse actions, above-Vsse/Vyse actions, and who does what. I’ll expect it pre-take-off as per your training.
This test is subject to the tolerances outlined in Schedule 8 at the Private Pilot Level Altitude ±150 ft, Heading ±10°, Speed −0/+5 kt, runway centreline + stable approach criteria. I’ll brief any aircraft-specific items.
Safe airmanship + correct procedures + maintained tolerances. Occasional small slips are OK if noticed, corrected, and risk-managed. Repeated/unchecked errors, unsafe OEI handling, or poor decision-making are unsatisfactory.
We operate within POH and your personal limits. If conditions would degrade safety or validity (e.g., asymmetric work in turbulence), we delay or adjust the profile.
Please do. If a question seems ambiguous, ask me to restate—that shows good threat and error management (TEM).
About 1.5hours. Usual flow: start/taxi/run-up → normal take-off → simulated EFATO/after-T/O engine failure (at safe speed) → asymmetric climb/level/turns → general handling (stalls, steep turns) → systems/abnormals (gear/elec/fuel drill) → crossfeed (if fitted/authorised) → circuit work (normal, flapless shortfield + asymmetric approach/landing; will include an asymmetric go-around).
Below 3,000 ft AGL: no. We simulate with throttle.At altitude, I will use the mixture control . We’ll brief the exact method on the ground.
All intentional failures are done ≥ Vsse with the aircraft configured and trimmed. You must maintain Vyse during recovery/climb.
Control → Power → Drag → Identify → Verify → Feather → Secure. Keep the ball centred (rudder), establish Vyse, clean up, then secure and checklist. Don’t chase heading with aileron; use small bank angle method into the live engine 5° for performance.
No, we will discuss the system and limitations on the ground instead.
At least approach-to-stall recognition and recovery (symmetric power). Emphasis is on prompt AoA reduction and minimal height loss. No asymmetric stalls. One stall will be in the clean configuration the other will be in the approach configuration.
A normal circuit/landing plus an asymmetric approach to a landing and a missed approach. I’m looking for stable profile, correct target speeds (blue line where appropriate), and disciplined gear/flap/prop sequencing.
Use your school/operator SOPs. Challenge–response with flows is ideal. Verbalise key gates (e.g., “positive rate—gear up”, “climb power set”).
Allowing speed to decay through Vyse during OEI.
Mis-identifying the failed engine (retarding the live one) or feathering without verification.
Loss of directional control or unsafe manoeuvring.
Pressing on when it’s not safe (e.g., unstable asymmetric approach not discontinued).
Guard blue line like your licence depends on it—because today it does.
Don’t rush: Aviate–Navigate–Communicate, then checklist.
Say what you’re doing; brief me like I’m your first-officer.
If something’s unclear, ask—clarity beats assumptions.
Completion Form
Please complete the details below to certify that you have read all of the content of this section. If you have any further questions, please contact me on 0418 260 014 or email me at douglashth@gmail.com.