FCL.100 LAPL – Minimum age

Regulation (EU) 2020/359

Applicants for the LAPL for aeroplanes or helicopters shall be at least 17 years old.

FCL.105 LAPL – Privileges and conditions

Regulation (EU) No 1178/2011

(a) General. The privileges of the holder of an LAPL are to act without remuneration as PIC in non-commercial operations on the appropriate aircraft category.

(b) Conditions. Applicants for the LAPL shall have fulfilled the requirements for the relevant aircraft category and, when applicable, for the class or type of aircraft used in the skill test.

FCL.110 LAPL – Crediting for the same aircraft category

Regulation (EU) No 1178/2011

(a) Applicants for an LAPL who have held another licence in the same category of aircraft shall be fully credited towards the requirements of the LAPL in that category of aircraft.

(b) Without prejudice to the paragraph above, if the licence has lapsed, the applicant shall have to pass a skill test in accordance with FCL.125 for the issue of an LAPL in the appropriate aircraft category.

FCL.115 LAPL – Training course

Regulation (EU) 2019/1747

(a) Applicants for an LAPL shall complete a training course at a DTO or an ATO.

(b) The course shall include theoretical knowledge and flight instruction appropriate to the privileges of the LAPL applied for.

(c) Theoretical knowledge instruction and flight instruction may be completed at a DTO or at an ATO different from the one where applicants have commenced their training.

(d) For the training for the single-engine piston aeroplanes-sea class privilege, the elements of Appendix 9 to this Annex, point 7 (Class ratings – sea) of Section B (Specific requirements for the aeroplane category) shall be considered.

AMC1 FCL.115 LAPL(A) – Training course

ED Decision 2020/005/R

FLIGHT INSTRUCTION FOR THE LAPL (A)

(a) Entry to training

Before being accepted for training an applicant should be informed that the appropriate medical certificate must be obtained before solo flying is permitted.

(b) Flight instruction

(1) The LAPL (A) flight instruction syllabus should take into account the principles of threat and error management and also cover:

(i) pre-flight operations, including mass and balance determination, aircraft inspection and servicing;

(ii) aerodrome and traffic pattern operations, collision avoidance precautions and procedures;

(iii) control of the aircraft by external visual reference;

(iv) flight at critically low air speeds, recognition of, and recovery from, incipient and full stalls;

(v) flight at critically high air speeds, recognition of, and recovery from, spiral dive;

(vi) normal and crosswind take-offs and landings;

(vii) maximum performance (short field and obstacle clearance) take-offs, short-field landings;

(viii) cross-country flying using visual reference, dead reckoning and radio navigation aids;

(ix) emergency operations, including simulated aeroplane equipment malfunctions;

(x) operations to, from and transiting controlled aerodromes, compliance with air traffic services procedures and communication procedures.

(2) Before allowing applicants to undertake their first solo flight, the FI should ensure that the applicants can use R/T communication can operate the required systems and equipment.

(c) Syllabus of flight instruction

(1) The numbering of exercises should be used primarily as an exercise reference list and as a broad instructional sequencing guide; therefore the demonstrations and practices need not necessarily be given in the order listed. The actual order and content will depend upon the following interrelated factors:

(i) the applicant’s progress and ability;

(ii) the weather conditions affecting the flight;

(iii) the flight time available;

(iv) instructional technique considerations;

(v) the local operating environment;

(vi) applicability of the exercises to the aeroplane or TMG type.

(2) Each of the exercises involves the need for the applicant to be aware of the needs of good airmanship and look-out, which should be emphasised at all times.

(i) Exercise 1a: Familiarisation with the aeroplane or TMG:

(A) characteristics of the aeroplane or TMG;

(B) cockpit layout;

(C) systems;

(D) checklists, drills and controls.

(ii) Exercise 1b: Emergency drills:

(A) action if fire on the ground and in the air;

(B) engine cabin and electrical system fire;

(C) systems failure;

(D) escape drills, location and use of emergency equipment and exits.

(iii) Exercise 2: Preparation for and action after flight:

(A) flight authorisation and aeroplane or TMG acceptance;

(B) serviceability documents;

(C) equipment required, maps, etc.;

(D) external checks;

(E) internal checks;

(F) harness, seat or rudder panel adjustments;

(G) starting and warm-up checks;

(H) power checks;

(I) running down system checks and switching off the engine;

(J) parking, security and picketing (for example tie down);

(K) completion of authorisation sheet and serviceability documents.

(iv) Exercise 3: Air experience: flight exercise.

(v) Exercise 4: Effects of controls:

(A) primary effects when laterally level and when banked;

(B) further effects of aileron and rudder;

(C) effects of:

(a) air speed;

(b) slipstream;

(c) power;

(d) trimming controls;

(e) flaps;

(f) other controls, as applicable.

(D) operation of:

(a) mixture control;

(b) carburettor heat;

(c) cabin heating or ventilation.

(vi) Exercise 5a: Taxiing:

(A) pre-taxi checks;

(B) starting, control of speed and stopping;

(C) engine handling;

(D) control of direction and turning;

(E) turning in confined spaces;

(F) parking area procedure and precautions;

(G) effects of wind and use of flying controls;

(H) effects of ground surface;

(I) freedom of rudder movement;

(J) marshalling signals;

(K) instrument checks;

(L) air traffic control procedures.

(vii) Exercise 5b: Emergencies: brake and steering failure.

(viii) Exercise 6: Straight and level:

(A) at normal cruising power, attaining and maintaining straight and level flight;

(B) flight at critically high air speeds;

(C) demonstration of inherent stability;

(D) control in pitch, including use of trim;

(E) lateral level, direction and balance, trim;

(F) at selected air speeds (use of power);

(G) during speed and configuration changes;

(H) use of instruments for precision.

(ix) Exercise 7: Climbing:

(A) entry, maintaining the normal and max rate climb, levelling off;

(B) levelling off at selected altitudes;

(C) en-route climb (cruise climb);

(D) climbing with flap down;

(E) recovery to normal climb;

(F) maximum angle of climb;

(G) use of instruments for precision.

(x) Exercise 8: Descending:

(A) entry, maintaining and levelling off;

(B) levelling off at selected altitudes;

(C)  glide, powered and cruise descent (including effect of power and air speed);

(D)  side slipping (on suitable types);

(E)  use of instruments for precision flight.

(xi)  Exercise 9: Turning:

(A)  entry and maintaining medium level turns;

(B)  resuming straight flight;

(C)  faults in the turn (in correct pitch, bank and balance);

(D)  climbing turns;

(E)  descending turns;

(F)  slipping turns (for suitable types);

(G)  turns onto selected headings, use of gyro heading indicator and compass;

(H)  use of instruments for precision.

(xii)  Exercise 10a: Slow flight: Note: the objective is to improve the student’s ability to recognise inadvertent flight at critically low speeds and provide practice in maintaining the aeroplane or TMG in balance while returning to normal air speed.

(A)  safety checks;

(B)  introduction to slow flight;

(C)  controlled flight down to critically slow air speed;

(D)  application of full power with correct attitude and balance to achieve normal climb speed.

(xiii)  Exercise 10b: Stalling:

(A)  safety checks;

(B)  symptoms;

(C)  recognition;

(D)  clean stall and recovery without power and with power;

(E)  recovery when a wing drops;

(F)  approach to stall in the approach and in the landing configurations, with and without power and recovery at the incipient stage.

(xiv)  Exercise 11: Spin avoidance:

(A)  safety checks;

(B)  stalling and recovery at the incipient spin stage (stall with excessive wing drop, about 45°);

(C)  instructor induced distractions during the stall.

(xv)  Exercise 12: Take-off and climb to downwind position:

(A)  pre-take-off checks;

(B)  into wind take-off;

(C) safeguarding the nose wheel (if applicable);

(D) crosswind take-off;

(E) drills during and after take-off;

(F) short take-off and soft field procedure or techniques including performance calculations;

(G) noise abatement procedures.

(xvi) Exercise 13: Circuit, approach and landing:

(A) circuit procedures, downwind and base leg;

(B) powered approach and landing;

(C) safeguarding the nose wheel (if applicable);

(D) effect of wind on approach and touchdown speeds and use of flaps;

(E) crosswind approach and landing;

(F) glide approach and landing;

(G) short landing and soft field procedures or techniques;

(H) flapless approach and landing;

(I) wheel landing (tail wheel aeroplanes);

(J) missed approach and go-around;

(K) noise abatement procedures.

(xvii) Exercise 12/13: Emergencies:

(A) abandoned take-off;

(B) engine failure after take-off;

(C) mislanding and go-around;

(D) missed approach.

Note: in the interests of safety, it will be necessary for pilots trained on nose wheel aeroplanes or TMGs to undergo dual conversion training before flying tail wheel aeroplanes or TMGs, and vice versa.

(xviii) Exercise 14: First solo:

(A) instructor’s briefing including limitations;

(B) use of required equipment;

(C) observation of flight and de-briefing by instructor.

Note: during flights immediately following the solo circuit consolidation the following should be revised:

(A) procedures for leaving and rejoining the circuit;

(B) the local area, restrictions, map reading;

(C) use of radio aids for homing;

(D) turns using magnetic compass, compass errors.

(xix) Exercise 15: Advanced turning:

(A) steep turns (45 °), level and descending;

(B) stalling in the turn and recovery;

(C) recoveries from unusual attitudes, including spiral dives.

(xx) Exercise 16: Forced landing without power:

(A) forced landing procedure;

(B) choice of landing area, provision for change of plan;

(C) gliding distance;

(D) descent plan;

(E) key positions;

(F) engine cooling;

(G) engine failure checks;

(H) use of radio;

(I) base leg;

(J) final approach;

(K) landing;

(L) actions after landing.

(xxi) Exercise 17: Precautionary landing:

(A) full procedure away from aerodrome to break-off height;

(B) occasions necessitating a precautionary landing;

(C) in-flight conditions;

(D) landing area selection:

(a) normal aerodrome;

(b) disused aerodrome;

(c) ordinary field.

(E) circuit and approach;

(F) actions after landing.

(xxii) Exercise 18a: Navigation:

(A) flight planning:

(a) weather forecast and actuals;

(b) map selection and preparation:

(1)  choice of route;

(2)  airspace structure;

(3)  safety altitudes.

(c)  calculations:

(1)  magnetic heading(s) and time(s) en-route;

(2)  fuel consumption;

(3)  mass and balance;

(4)  mass and performance.

(d) flight information:

(1) NOTAMs, etc.;

(2) radio frequencies;

(3) selection of alternate aerodromes.

(e) aeroplane or TMG documentation;

(f) notification of the flight:

(1)  pre-flight administrative procedures;

(2)  flight plan form.

(B)  departure:

(a) organisation of cockpit workload;

(b) departure procedures:

(1) altimeter settings;

(2) ATC liaison in regulated airspace;

(3) setting heading procedure;

(4) noting of ETAs.

(c) maintenance of altitude and heading;

(d) revisions of ETA and heading;

(e) log keeping;

(f) use of radio;

(g) minimum weather conditions for continuation of flight;

(h) in-flight decisions;

(i) transiting controlled or regulated airspace;

(j) diversion procedures;

(k) uncertainty of position procedure;

(l) lost procedure.

(C) arrival and aerodrome joining procedure: 

(a) ATC liaison in regulated airspace;

(b) altimeter setting;

(c) entering the traffic pattern;

(d) circuit procedures;

(e) parking;

(f) security of aeroplane or TMG;

(g) refuelling;

(h) closing of flight plan, if appropriate;

(i) post-flight administrative procedures.

(xxiii) Exercise 18b: Navigation problems at lower levels and in reduced visibility:

(A) actions before descending;

(B) hazards (for example obstacles, and terrain);

(C) difficulties of map reading;

(D) effects of wind and turbulence;

(E) vertical situational awareness (avoidance of controlled flight into terrain);

(F) avoidance of noise sensitive areas;

(G) joining the circuit;

(H) bad weather circuit and landing.

(xxiv) Exercise 18c: Radio navigation (basics):

(A) use of GNSS or VOR/ADF:

(a) selection of waypoints or stations;

(b) to or from indications and orientation;

(c) error messages.

(B) use of VHF/DF:

(a) availability, AIP and frequencies;

(b) R/T procedures and ATC liaison;

(c) obtaining a QDM and homing.

(C) use of en-route or terminal radar:

(a) availability and AIP;

(b) procedures and ATC liaison;

(c) pilot’s responsibilities;

(d) secondary surveillance radar:

(1) transponders;

(2) code selection;

(3) interrogation and reply.

(xxv) Exercise 19: Stopping and restarting the engine (in the case of TMGs only):

(A) engine cooling;

(B) switching-off procedure;

(C) restarting of the engine.

AMC2 FCL.115 LAPL(H) Training course

ED Decision 2020/005/R

FLIGHT INSTRUCTION FOR THE LAPL(H)

(a) Entry to training

Before being accepted for training an applicant should be informed that the

appropriate medical certificate must be obtained before solo flying is

permitted.

(b) Flight instruction

(1) The LAPL(H) flight instruction syllabus should take into account the principles of threat and error management and also cover:

(i) pre-flight operations, including mass and balance determination, helicopter inspection and servicing;

(ii) aerodrome and traffic pattern operations, collision avoidance precautions and procedures;

(iii) control of the helicopter by external visual reference;

(iv) take-offs, landings, hovering, look-out turns and normal transitions from and to the hover;

(v) emergency procedures, basic autorotations, simulated engine failure and ground resonance recovery if relevant to type;

(vi) sideways and backwards flight and turns on the spot;

(vii) incipient vortex ring recognition and recovery;

(viii) touchdown autorotations, simulated engine-off landings, practice forced landings. Simulated equipment malfunctions and emergency procedures relating to malfunctions of engines, controls, electrical and hydraulic circuits;

(ix) steep turns;

(x) transitions, quick stops, out of wind manoeuvres, sloping ground landings and take-offs;

(xi) limited power and confined area operations including selection of and operations to and from unprepared sites;

(xii) cross-country flying by using visual reference, dead reckoning and, where available and radio navigation aids;

(xiii) operations to and from aerodromes; compliance with air traffic services procedures and communication procedures.

(2) Before allowing applicants to undertake their first solo flight, the FI should ensure that the applicants can use R/T communication and can operate the required systems and equipment.

(c) Syllabus of flight instruction

(1) The numbering of exercises should be used primarily as an exercise reference list and as a broad instructional sequencing guide; therefore the demonstrations and practices need not necessarily be given in the order listed. The actual order and content will depend upon the following interrelated factors:

(i) the applicant’s progress and ability;

(ii) the weather conditions affecting the flight;

(iii) the flight time available;

(iv) instructional technique considerations;

(v) the local operating environment;

(vi) applicability of the exercises to the helicopter type.

(2) Each of the exercises involves the need for the applicant to be aware of the needs of good airmanship and look-out, which should be emphasised at all times.

(i) Exercise 1a: Familiarisation with the helicopter:

(A) characteristics of the helicopter, external features;

(B) cockpit layout;

(C) systems;

(D) checklists, procedures, controls.

(ii) Exercise 1b: Emergency procedures:

(A) action if fire on the ground and in the air;

(B) engine, cabin and electrical system fire;

(C) systems failures;

(D) escape drills, location and use of emergency equipment and exits.

(iii) Exercise 2: Preparation for and action after flight:

(A) flight authorisation and helicopter acceptance;

(B) serviceability documents;

(C) equipment required, maps, etc.;

(D) external checks;

(E) internal checks;

(F) seat, harness and flight controls adjustments;

(G) starting and warm-up checks clutch engagement and starting rotors;

(H) power checks;

(I) running down system checks and switching off the engine;

(J) parking, security and picketing;

(K) completion of authorisation sheet and serviceability documents.

(iv) Exercise 3: Air experience:

(A) to introduce the student to rotary wing flight;

(B) flight exercise.

(v) Exercise 4: Effects of controls:

(A) function of flight controls, primary and secondary effect;

(B) effect of air speed;

(C) effect of power changes (torque);

(D) effect of yaw (sideslip);

(E) effect of disc loading (bank and flare);

(F) effect on controls of selecting hydraulics on/off;

(G) effect of control friction;

(H) instruments;

(I) use of carburettor heat or anti-icing control.

(vi) Exercise 5: Power and attitude changes:

(A) relationship between cyclic control position, disc attitude, fuselage attitude and air speed;

(B) flapback;

(C) power required diagram in relation to air speed;

(D) power and air speed changes in level flight;

(E) use of instruments for precision;

(F) engine and air speed limitations.

(vii) Exercise 6a: Straight and level:

(A) at normal cruising power, attaining and maintaining straight and level flight;

(B) control in pitch, including use of control friction or trim;

(C) maintaining direction and balance, (ball or yawstring use);

(D) setting power for selected air speeds and speed changes;

(E) use of instruments for precision.

(viii) Exercise 6b: Climbing:

(A) optimum climb speed, best angle or rate of climb from power required diagram;

(B) initiation, maintaining the normal and maximum rate of climb, levelling off;

(C) levelling off at selected altitudes or heights;

(D) use of instruments for precision.

(ix) Exercise 6c: Descending:

(A) optimum descent speed and best angle or rate of descent from power required diagram;

(B) initiation, maintaining and levelling off;

(C) levelling off at selected altitudes or heights;

(D) descent (including effect of power and air speed);

(E) use of instruments for precision.

(x) Exercise 6d: Turning:

(A) initiation and maintaining medium level turns;

(B) resuming straight flight;

(C) altitude, bank and coordination;

(D) climbing and descending turns and effect on rate of climb or descent;

(E) turns onto selected headings, use of gyro heading indicator and compass;

(F) use of instruments for precision.

(xi) Exercise 7: Basic autorotation:

(A) safety checks, verbal warning and look-out;

(B) entry, development and characteristics;

(C) control of air speed and RRPM, rotor and engine limitations;

(D) effect of AUM, IAS, disc loading, G-forces and density altitude

(E) re-engagement and go-around procedures (throttle over-ride or ERPM control);

(F) vortex condition during recovery;

(G) gentle and medium turns in autorotation;

(H) demonstration of variable flare simulated engine off landing.

(xii) Exercise 8a: Hovering:

(A) demonstrate hover IGE, importance of wind effect and attitude, ground cushion, stability in the hover, effects of over controlling;

(B) student holding cyclic stick only;

(C) student handling collective lever (and throttle) only;

(D) student handling collective lever, (throttle) and pedals;

(E) student handling all controls;

(F) demonstration of ground effect;

(G) demonstration of wind effect;

(H) demonstrate gentle forward running touchdown;

(I) specific hazards, for example snow, dust and litter.

(xiii) Exercise 8b: Hover taxiing and spot turns:

(A) revise hovering;

(B) precise ground speed and height control;

(C) effect of wind direction on helicopter attitude and control margin;

(D) control and coordination during spot turns;

(E) carefully introduce gentle forward running touchdown.

(xiv) Exercise 8c: Hovering and taxiing emergencies:

(A) revise hovering and gentle forward running touchdown, explain (demonstrate where applicable) effect of hydraulics failure in the hover;

(B) demonstrate simulated engine failure in the hover and hover taxi.

(C) demonstrate dangers of mishandling and over-pitching.

(xv) Exercise 9: Take-off and landing

(A) pre-take-off checks or drills;

(B) look-out;

(C) lifting to hover;

(D) after take-off checks;

(E) danger of horizontal movement near ground;

(F) danger of mishandling and overpitching;

(G) landing (without sideways or backwards movement);

(H) after landing checks or drills;

(I) take-off and landing crosswind and downwind.

(xvi) Exercise 10: Transitions from hover to climb and approach to hover:

(A) look-out;

(B) revise take-off and landing;

(C) ground effect, translational lift and its effects;

(D) flapback and its effects;

(E) effect of wind speed and direction during transitions from or to the hover;

(F) the constant angle approach;

(G) demonstration of variable flare simulated engine off landing.

(xvii) Exercise 11a: Circuit, approach and landing:

(A) revise transitions from hover to climb and approach to hover;

(B) circuit procedures, downwind and base leg;

(C) approach and landing with power;

(D) pre-landing checks;

(E) effect of wind on approach and IGE hover

(F) crosswind approach and landing;

(G) go-around;

(H) noise abatement procedures.

(xviii) Exercise 11b: Steep and limited power approaches and landings:

(A) revise the constant angle approach;

(B) the steep approach (explain danger of high sink rate and low air speed);

(C) limited power approach (explain danger of high speed at touch down);

(D) use of the ground effect;

(E) variable flare simulated engine off landing.

(xix) Exercise 11c: Emergency procedures:

(A) abandoned take-off;

(B) missed approach and go-around;

(C) hydraulic off landing (if applicable);

(D) tail rotor control or tail rotor drive failure (briefing only);

(E) simulated emergencies in the circuit to include:

(F) hydraulics failure;

(G) simulated engine failure on take-off, crosswind, downwind and base leg;

(H) governor failure.

(xx) Exercise 12: First solo:

(A) instructor’s briefing, observation of flight and debriefing;

(B) warn of change of attitude from reduced and laterally displaced weight;

(C) warn of low tail, low skid or wheel during hover and landing;

(D) warn of dangers of loss of RRPM and overpitching;

(E) pre-take-off checks;

(F) into wind take-off;

(G) procedures during and after take-off;

(H) normal circuit, approaches and landings;

(I) action if an emergency.

(xxi) Exercise 13: Sideways and backwards hover manoeuvring:

(A) manoeuvring sideways flight heading into wind;

(B) manoeuvring backwards flight heading into wind;

(C) combination of sideways and backwards manoeuvring;

(D) manoeuvring sideways and backwards, heading out of wind;

(E) stability and weather cocking;

(F) recovery from backwards manoeuvring, (pitch nose down);

(G) groundspeed limitations for sideways and backwards manoeuvring.

(xxii) Exercise 14: Spot turns:

(A) revise hovering into wind and downwind;

(B) turn on spot through 360°:

(a) around pilots position;

(b) around tail rotor;

(c) around helicopter geometric centre;

(d) square and safe visibility clearing turn.

(C) rotor RPM control, torque effect, cyclic limiting stops due to CG position and wind speed and direction.

(xxiii) Exercise 15: Hover OGE and vortex ring:

(A) establishing hover OGE;

(B) drift, height or power control;

(C) demonstration of incipient stage of vortex ring, recognition and recovery (from a safe altitude);

(D) loss of tail rotor effectiveness.

(xxiv) Exercise 16: Simulated EOL:

(A) the effect of weight, disc loading, density attitude and RRPM decay;

(B) revise basic autorotation entry;

(C) optimum use of cyclic and collective to control speed or RRPM;

(D) variable flare simulated EOL;

(E) demonstrate constant attitude simulated EOL;

(F) demonstrate simulated EOL from hover or hover taxi;

(G) demonstrate simulated EOL from transition and low level.

(xxv) Exercise 17: Advanced autorotation:

(A) over a selected point at various height and speed;

(B) revise basic autorotation: note ground distance covered;

(C) range autorotation;

(D) low speed autorotation;

(E) constant attitude autorotation (terminate at safe altitude);

(F) ‘S’ turns;

(G) turns through 180° and 360°;

(H) effects on angles of descent, IAS, RRPM and effect of AUM.

(xxvi) Exercise 18: Practice forced landings:

(A) procedure and choice of the forced landing area;

(B) forced landing checks and crash action;

(C) re-engagement and go-around procedures.

(xxvii) Exercise 19: Steep turns:

(A) steep (level) turns (30° bank);

(B) maximum rate turns (45° bank if possible);

(C) steep autorotative turns;

(D) faults in the turn: balance, attitude, bank and coordination;

(E) RRPM control and disc loading;

(F) vibration and control feedback;

(G) effect of wind at low level.

(xxviii)Exercise 20: Transitions:

(A) revise ground effect, translational lift and flapback;

(B) maintaining constant height, (20–30 ft AGL):

(C) transition from hover to minimum 50 knots IAS and back to hover;

(D) demonstrate effect of wind.

(xxix) Exercise 21: Quick stops:

(A) use of power and controls;

(B) effect of wind;

(C) quick stops into wind;

(D) quick stops from crosswind and downwind terminating into wind;

(E) danger of vortex ring;

(F) danger of high disc loading.

(xxx) Exercise 22a: Navigation:

(A) Flight planning:

(a) weather forecast and actuals;

(b) map selection and preparation and use:

(1) choice of route;

(2) controlled airspace, danger and prohibited areas;

(3) safety altitudes and noise abatement considerations.

(c) calculations:

(1) magnetic heading(s) and time(s) en-route;

(2) fuel consumption;

(3) mass and balance.

(d) flight information:

(1) NOTAMs, etc.;

(2) radio frequencies;

(3) selection of alternate landing sites.

(e) helicopter documentation;

(f) notification of the flight:

(1) pre-flight administrative procedures;

(2) flight plan form (where appropriate).

(B) Departure:

(a) organisation of cockpit workload;

(b) departure procedures:

(1) altimeter settings;

(2) ATC liaison in regulated airspace;

(3) setting heading procedure;

(4) noting of ETAs.

(c) maintenance of height or altitude and heading;

(d) revisions of ETA and heading:

(1) 10° line, double track, track error and closing angle;

(2) 1 in 60 rule;

(3) amending an ETA.

(e) log keeping;

(f) use of radio;

(g) minimum weather conditions for continuation of flight;

(h) in-flight decisions;

(i) transiting controlled or regulated airspace;

(j) uncertainty of position procedure;

(k) lost procedure.

(C) Arrival and aerodrome joining procedure:

(a) ATC liaison in regulated airspace;

(b) altimeter setting;

(c) entering the traffic pattern;

(d) circuit procedures;

(e) parking;

(f) security of helicopter;

(g) refuelling;

(h) closing of flight plan, (if appropriate);

(i) post-flight administrative procedures.

(xxxi) Exercise 22b: Navigation problems at low heights and in reduced visibility:

(A) actions before descending;

(B) hazards (for example obstacles and other aircraft);

(C) difficulties in map reading;

(D) effects of wind and turbulence;

(E) avoidance of noise-sensitive areas;

(F) actions in case of DVE;

(G)  decision to divert or make a precautionary landing;

(H)  bad-weather circuit and landing;

(I)  appropriate procedures and choice of landing area;

(J)  precautionary landing.

(xxxii) Exercise 22c: Radio navigation (basics):

(A) Use of GNNS or VOR/NDB:

(a) selection of waypoints;

(b) to or from indications or orientation;

(c) error messages.

(B) Use of VHF/DF:

(a) availability, AIP and frequencies;

(b) R/T procedures and ATC liaison;

(c) obtaining a QDM and homing.

(C) Use of en-route or terminal radar:

(a) availability and AIP;

(b) procedures and ATC liaison;

(c) pilot’s responsibilities;

(d) secondary surveillance radar:

(1) transponders;

(2) code selection;

(3) interrogation and reply.

(xxxiii) Exercise 23: Advanced take-off, landings and transitions:

(A) landing and take-off out of wind (performance reduction);

(B) ground effect, translational lift and directional stability variation when out of wind;

(C) downwind transitions;

(D) vertical take-off over obstacles;

(E) reconnaissance of landing site;

(F) running landing;

(G) zero speed landing;

(H) crosswind and downwind landings;

(I) steep approach;

(J) go-around.

(xxxiv) Exercise 24: Sloping ground:

(A) limitations and assessing slope angle;

(B) wind and slope relationship: blade and control stops;

(C) effect of CG when on slope;

(D) ground effect on slope and power required;

(E) right skid up slope;

(F) left skid up slope;

(G) nose up slope;

(H) avoidance of dynamic roll over, dangers soft ground and sideways movement on touchdown;

(I) danger of striking main or tail rotor by harsh control movement near ground.

(xxxv) Exercise 25: Limited power:

(A) take-off power check;

(B) vertical take-off over obstacles;

(C) in-flight power check;

(D) running landing;

(E) zero speed landing;

(F) approach to low hover;

(G) approach to hover;

(H) approach to hover OGE;

(I) steep approach;

(J) go-around.

(xxxvi) Exercise 26: Confined areas:

(A) landing capability and performance assessment;

(B) locating landing site and assessing wind speed and direction;

(C) reconnaissance of landing site;

(D) select markers;

(E) select direction and type of approach;

(F) circuit;

(G) approach to committed point and go-around;

(H) approach;

(I) clearing turn;

(J) landing;

(K) power check and performance assessment in and OGE;

(L) normal take-off to best angle of climb speed;

(M) vertical take-off from hover.

CHANGE OF TRAINING ORGANISATION

In cases where the applicant completes the training course (theoretical knowledge instruction or flight instruction) at a different DTO or ATO (‘completing training organisation’) from the one where they have started the training course (‘starting training organisation’), the applicant should request from the starting training organisation a copy of the records kept in accordance with point DTO.GEN.220 or point ORA.ATO.120.

FCL.120 LAPL – Theoretical knowledge examination

Regulation (EU) 2020/359

Applicants for an LAPL shall demonstrate a level of theoretical knowledge appropriate to the privileges granted, through examinations on the following:

(a) common subjects:

             Air law,

             Human performance,

             Meteorology,

             Communications, and

             Navigation.

(b) specific subjects concerning the different aircraft categories:

             Principles of flight,

             Operational procedures,

             Flight performance and planning, and

             Aircraft general knowledge.

AMC1 FCL.115; FCL.120 LAPL training course and theoretical knowledge examination

ED Decision 2020/005/R

SYLLABUS OF THEORETICAL KNOWLEDGE FOR THE LAPL

(a) The training and examination should cover aspects related to non-technical skills in an integrated manner, taking into account the particular risks associated with the licence and the activity. The DTO or the ATO responsible for the training has to check if all the appropriate elements of the training course of theoretical knowledge instruction have been completed to a satisfactory standard before recommending the applicant for the examination.

(b) The following tables contain the syllabi for the courses of theoretical knowledge, as well as for the theoretical knowledge examinations for the LAPL(B) and LAPL(S). The syllabi for the theoretical knowledge instruction and examination for the PPL(A) and PPL(H) in AMC1 FCL.210; FCL.215 should be used for the LAPL(A) and the LAPL(H), respectively.

I. COMMON SUBJECTS

[FOR LAPL(S) AND LAPL(B)]

1.

AIR LAW AND ATC PROCEDURES

1.1.

International law: conventions, agreements and organisations 

1.2.

Airworthiness of aircraft 

1.3.

Aircraft nationality and registration marks

1.4.

Personnel licensing

1.5.

Rules of the air 

1.6.

Procedures for air navigation: aircraft operations 

1.7.

Air traffic regulations: airspace structure 

1.8.

ATS and air traffic management

1.9.

AIS

1.10.

Aerodromes, external take-off sites

1.11.

Search and rescue

1.12.

Security 

1.13.

Accident reporting 

1.14.

National law

2.

HUMAN PERFORMANCE

2.1.

Human factors: basic concepts

2.2.

Basic aviation physiology and health maintenance

2.3.

Basic aviation psychology

3.

METEOROLOGY

3.1.

The atmosphere

3.2.

Wind

3.3.

Thermodynamics

3.4.

Clouds and fog

3.5.

Precipitation

3.6. 

Air masses and fronts

3.7

Pressure systems

3.8. 

Climatology

3.9.

Flight hazards

3.10. 

Meteorological information

4. 

COMMUNICATIONS

4.1. 

VFR communications

4.2. 

Definitions

4.3.

General operating procedures

4.4.

Relevant weather information terms (VFR)

4.5. 

Action required to be taken in case of communication failure

4.6.

Distress and urgency procedures

4.7. 

General principles of VHF propagation and allocation of frequencies

II. ADDITIONAL SUBJECTS FOR EACH CATEGORY

II.A SAILPLANES

5.

PRINCIPLES OF FLIGHT - SAILPLANE

5.1.

Aerodynamics (airflow)

5.2.

Flight mechanics

5.3.

Stability

5.4.

Control

5.5.

Limitations (load factor and manoeuvres)

5.6.

Stalling and spinning

6.

OPERATIONAL PROCEDURES - SAILPLANE

6.1.

General requirements

6.2.

Launch methods 

6.3.

Soaring techniques

6.4.

Circuits and landing

6.5.

Outlanding

6.6.

Special operational procedures and hazards 

6.7.

Emergency procedures

7.

FLIGHT PERFORMANCE AND PLANNING - SAILPLANE

7.1. 

Verifying mass and balance 

7.2.

Speed polar of sailplanes or cruising speed

7.3.

Flight planning and task setting

7.4.

ICAO flight plan (ATS flight plan)

7.5.

Flight monitoring and in-flight re-planning

8.

AIRCRAFT GENERAL KNOWLEDGE, AIRFRAME AND SYSTEMS AND EMERGENCY EQUIPMENT – SAILPLANE

8.1.

Airframe 

8.2.

System design, loads and stresses 

8.3.

Landing gear, wheels, tyres and brakes

8.4.

Mass and balance

8.5.

Flight controls

8.6.

Instruments

8.7.

Manuals and documents

8.8.

Airworthiness and maintenance

9.

NAVIGATION – SAILPLANE

9.1.

Basics of navigation

9.2.

Magnetism and compasses

9.3.

Charts

9.4.

Dead reckoning navigation

9.5.

In-flight navigation

9.6.

Global navigation satellite systems

II.B. BALLOONS

5.

PRINCIPLES OF FLIGHT – BALLOON

5.1.

Principles of flight

5.2.

Aerostatics

5.3.

Loading limitations

5.4.

Operational limitations

6.

OPERATIONAL PROCEDURES – BALLOON

6.1.

General requirements

6.2.

Special operational procedures and hazards (general aspects)

6.3.

Emergency procedures

7.

FLIGHT PERFORMANCE AND PLANNING – BALLOON

7.1. 

Mass 

7.1.1. 

Purpose of mass considerations

7.1.2.

Loading

7.2.

Performance

7.2.1.

Performance: general

7.3.

Flight planning and flight monitoring

7.3.1.

Flight planning: general

7.3.2.

Fuel planning

7.3.3.

Pre-flight preparation

7.3.4.

ICAO flight plan (ATS flight plan)

7.3.5.

Flight monitoring and in-flight re-planning

8.

AIRCRAFT GENERAL KNOWLEDGE, ENVELOPE AND SYSTEMS AND EMERGENCY EQUIPMENT – BALLOON

8.1.

System design, loads, stresses and maintenance

8.2.

Envelope

8.3.

Burner (hot-air balloon and hot-air airship)

8.4.

Fuel cylinders (hot-air balloon or hot-air airship)

8.5.

Basket or gondola

8.6.

Lifting gas (gas balloon)

8.7.

Burning gas (hot-air balloon or hot-air airship)

8.8.

Ballast (gas balloon)

8.9.

Engine (hot-air airship only)

8.10.

Instruments

8.11.

Emergency equipment

9.

NAVIGATION – BALLOON

9.1.

General navigation

9.2.

Basics of navigation

9.3.

Magnetism and compasses

9.4.

Charts

9.5.

Dead reckoning navigation

9.6.

In-flight navigation

9.7.

GNSS

FCL.125 LAPL – Skill test

Regulation (EU) No 1178/2011

(a) Applicants for an LAPL shall demonstrate through the completion of a skill test the ability to perform, as PIC on the appropriate aircraft category, the relevant procedures and manoeuvres with competency appropriate to the privileges granted.

(b) Applicants for the skill test shall have received flight instruction on the same class or type of aircraft to be used for the skill test. The privileges will be restricted to the class or type used for the skill test until further extensions are endorsed on the licence, in accordance with this Subpart.

(c) Pass marks

(1) The skill test shall be divided into different sections, representing all the different phases of flight appropriate to the category of aircraft flown.

(2) Failure in any item of a section will cause the applicant to fail the entire section. If the applicant fails only 1 section, he/she shall repeat only that section. Failure in more than 1 section will cause the applicant to fail the entire test.

(3) When the test needs to be repeated in accordance with (2), failure in any section, including those that have been passed on a previous attempt, will cause the applicant to fail the entire test.

(4) Failure to achieve a pass in all sections of the test in 2 attempts will require further practical training.

AMC1 FCL.120; FCL.125

ED Decision 2011/016/R

THEORETICAL KNOWLEDGE EXAMINATION AND SKILL TEST FOR THE LAPL

(a) Theoretical knowledge examination

(1) The examinations should be in written form and should comprise a total of 120 multiple-choice questions covering all the subjects.

(2) For the subject ‘communication’ practical classroom testing may be conducted.

(3) The competent authority should inform applicants of the language(s) in which the examinations will be conducted.

(b) Skill test

Further training may be required following any failed skill test or part thereof. There should be no limit to the number of skill tests that may be attempted.

(c) Conduct of the test

(1) If the applicant chooses to terminate a skill test for reasons considered inadequate by the FE, the applicant should retake the entire skill test. If the test is terminated for reasons considered adequate by the FE, only those sections not completed should be tested in a further flight.

(2) Any manoeuvre or procedure of the test may be repeated once by the applicant. The FE may stop the test at any stage if it is considered that the applicant’s demonstration of flying skill requires a complete retest.

(3) An applicant should be required to fly the aircraft from a position where the PIC functions can be performed and to carry out the test as if there is no other crew member. Responsibility for the flight should be allocated in accordance with national regulations.

AMC1 FCL.125 LAPL – Skill test

ED Decision 2011/016/R

CONTENTS OF THE SKILL TEST FOR THE ISSUE OF A LAPL(A)

(a) The route to be flown for the skill test should be chosen by the FE. The route should end at the aerodrome of departure or at another aerodrome. The applicant should be responsible for the flight planning and should ensure that all equipment and documentation for the execution of the flight are on board. The navigation section of the test should have a duration of at least 30 minutes which allows the pilot to demonstrate his/her ability to complete a route with at least two identified waypoints and may, as agreed between applicant and FE, be flown as a separate test.

(b) An applicant should indicate to the FE the checks and duties carried out, including the identification of radio facilities. Checks should be completed in accordance with the flight manual or the authorised checklist for the aeroplane or TMG on which the test is being taken. During pre-flight preparation for the test the applicant should be required to determine power settings and speeds. Performance data for take-off, approach and landing should be calculated by the applicant in compliance with the operations manual or flight manual for the aeroplane or TMG used.

FLIGHT TEST TOLERANCE

(c) The applicant should demonstrate the ability to:

(1) operate the aeroplane or TMG within its limitations;

(2) complete all manoeuvres with smoothness and accuracy;

(3) exercise good judgment and airmanship;

(4) apply aeronautical knowledge;

(5) maintain control of the aeroplane or TMG at all times in such a manner that the successful outcome of a procedure or manoeuvre is never seriously in doubt.

(d) The following limits are for general guidance. The FE should make allowance for turbulent conditions and the handling qualities and performance of the aeroplane or TMG used:

(1) height: normal flight ± 150 ft

(2) speed:

(i) take-off and approach +15/-5 knots

(ii) all other flight regimes ± 15 knots

CONTENT OF THE SKILL TEST

(e) The skill test contents and sections set out in this AMC should be used for the skill test for the issue of a LAPL(A):

SECTION 1 PRE-FLIGHT OPERATIONS AND DEPARTURE

Use of checklist, airmanship, control of aeroplane or TMG by external visual reference, anti/de-icing procedures, etc. apply in all sections.

a

Pre-flight documentation, NOTAM and weather briefing

b

Mass and balance and performance calculation

c

Aeroplane or TMG inspection and servicing

d

Engine starting and after starting procedures

e

Taxiing and aerodrome procedures, pre-take-off procedures

f

Take-off and after take-off checks 

g

Aerodrome departure procedures

h

ATC liaison: compliance

SECTION 2 GENERAL AIRWORK

a

ATC liaison

b

Straight and level flight, with speed changes

c

Climbing:

i.  best rate of climb;

ii. climbing turns

iii.  levelling off.

d

Medium (30° bank) turns, look-out procedures and collision avoidance

e

Steep (45 ° bank) turns 

f

Flight at critically low air speed with and without flaps 

g

Stalling:

i. clean stall and recover with power;

ii. approach to stall descending turn with bank angle 20 °, approach configuration;

iii. approach to stall in landing configuration.

h

Descending:

i. with and without power;

ii. descending turns (steep gliding turns);

iii. levelling off.

SECTION 3 EN-ROUTE PROCEDURES

a

Flight plan, dead reckoning and map reading

b

Maintenance of altitude, heading and speed

c

Orientation, airspace structure, timing and revision of ETAs, log keeping

d

Diversion to alternate aerodrome (planning and implementation)

e

Flight management (checks, fuel systems, carburettor icing, etc.) 

f

ATC liaison: compliance

SECTION 4 APPROACH AND LANDING PROCEDURES

a

Aerodrome arrival procedures

b

Collision avoidance (look-out procedures)

c

Precision landing (short field landing) and crosswind, if suitable conditions available

d

Flapless landing (if applicable)

e

Approach to landing with idle power 

f

Touch and go

g

Go-around from low height

h

ATC liaison

i

Actions after flight

SECTION 5 ABNORMAL AND EMERGENCY PROCEDURES

This section may be combined with Sections 1 through 4

a

Simulated engine failure after take-off 

b

* Simulated forced landing 

c

* Simulated precautionary landing 

d

Simulated emergencies

e

Oral questions

* These items may be combined, at the discretion of the FE.

AMC2 FCL.125 LAPL – Skill test

ED Decision 2011/016/R

CONTENTS OF THE SKILL TEST FOR THE ISSUE OF A LAPL(H)

(a) The area and route to be flown for the skill test should be chosen by the FE. The route should end at the aerodrome of departure or at another aerodrome. The applicant should be responsible for the flight planning and should ensure that all equipment and documentation for the execution of the flight are on board. The navigation section of the test should consist of at least two legs, each leg of a minimum duration of 10 minutes. The skill test may be conducted in two flights.

(b) An applicant should indicate to the FE the checks and duties carried out, including the identification of radio facilities. Checks should be completed in accordance with the flight manual or the authorised checklist or pilot operating handbook for the helicopter on which the test is being taken. During pre-flight preparation for the test the applicant should be required to determine power settings and speeds. Performance data for take-off, approach and landing should be calculated by the applicant in compliance with the operations manual or flight manual for the helicopter used.

FLIGHT TEST TOLERANCE

(c) The applicant should demonstrate the ability to:

(1) operate the helicopter within its limitations;

(2) complete all manoeuvres with smoothness and accuracy;

(3) exercise good judgment and airmanship;

(4) apply aeronautical knowledge;

(5) maintain control of the helicopter at all times in such a manner that the successful outcome of a procedure or manoeuvre is never seriously in doubt.

(d) The following limits are for general guidance. The FE should make allowance for turbulent conditions and the handling qualities and performance of the helicopter used:

(1) height:

(i) normal forward flight    ± 150 ft

(ii) with simulated major emergency  ± 200 ft

(iii) hovering IGE flight     ± 2 ft

(2) speed:

(i) take-off approach     +15 knots /-10 knots

(ii) all other flight regimes    ± 15 knots

(3) round drift:

(i) take-off hover IGE     ± 3 ft

(ii) landing      no sideways or backward movement

CONTENT OF THE SKILL TEST

(e) The skill test contents and sections set out in this AMC should be used for the skill test for the issue of a LAPL(H):

SECTION 1 PRE-FLIGHT OR POST-FLIGHT CHECKS AND PROCEDURES

Use of checklist, airmanship, control of helicopter by external visual reference, anti/de-icing procedures, etc. apply in all sections.

a

Helicopter knowledge (for example technical log, fuel, mass and balance, performance), flight planning, NOTAM, and weather briefing

b

Pre-flight inspection or action, location of parts and purpose

c

Cockpit inspection, starting procedure

d

Communication and navigation equipment checks, selecting and setting frequencies

e

Pre-take-off procedure and ATC liaison 

f

Parking, shutdown and post-flight procedure

SECTION 2 HOVER MANOEUVRES, ADVANCED HANDLING AND CONFINED AREAS

a

Take-off and landing (lift off and touch down)

b

Taxi and hover taxi

c

Stationary hover with head, cross and tail wind

d

Stationary hover turns, 360° left and right (spot turns)

e

Forward, sideways and backwards hover manoeuvring

f

Simulated engine failure from the hover

g

Quick stops into and downwind

h

Sloping ground or unprepared sites landings and take-offs

i

Take-offs (various profiles)

j

Crosswind and downwind take-off (if practicable)

k

Take-off at maximum take-off mass (actual or simulated)

l

Approaches (various profiles)

m

Limited power take-off and landing

n

Autorotations (FE to select two items from the following: basic, range, low speed, and 360° turns)

o

Autorotative landing

p

Practice forced landing with power recovery

q

Power checks, reconnaissance technique, approach and departure technique

SECTION 3 NAVIGATION AND EN-ROUTE PROCEDURES

a

Navigation and orientation at various altitudes or heights and map reading

b

Altitude or height, speed, heading control, observation of airspace and altimeter setting

c

Monitoring of flight progress, flight-log, fuel usage, endurance, ETA, assessment of track error, re-establishment of correct track and instrument monitoring

d

Observation of weather conditions and diversion planning

e

Collision avoidance (look-out procedures)

f

ATC liaison with due observance of regulations

SECTION 4 FLIGHT PROCEDURES AND MANOEUVRES

a

Level flight, control of heading, altitude or height and speed

b

Climbing and descending turns to specified headings

c

Level turns with up to 30 ° bank, 180 ° to 360 ° left and right

SECTION 5 ABNORMAL AND EMERGENCY PROCEDURES (SIMULATED WHERE APPROPRIATE)

Note: The FE selects 4 items from the following:

a

Engine malfunctions, including governor failure, carburettor or engine icing and oil system, as appropriate

b

Fuel system malfunction

c

Electrical system malfunction

d

Hydraulic system malfunction, including approach and landing without hydraulics, as applicable

e

Main rotor or anti-torque system malfunction (FFS or discussion only)

f

Fire drills, including smoke control and removal, as applicable

g

Other abnormal and emergency procedures as outlined in appropriate flight manual 

AMC1 FCL.125; FCL.235

ED Decision 2011/016/R

CONTENTS OF THE SKILL TEST FOR THE ISSUE OF A LAPL(S) AND OF AN SPL

(a) An applicant should be responsible for the flight planning and should ensure that all equipment and documentation for the execution of the flight are on board.

(b) The applicant should indicate to the FE the checks and duties carried out.

Checks should be completed in accordance with the flight manual or the authorised checklist for the sailplane on which the test is being taken.

FLIGHT TEST TOLERANCE

(c) The applicant should demonstrate the ability to:

(1) operate the sailplane within its limitations;

(2) complete all manoeuvres with smoothness and accuracy;

(3) exercise good judgment and airmanship;

(4) apply aeronautical knowledge;

(5) maintain control of the sailplane at all times in such a manner that the successful outcome of a procedure or manoeuvre is never seriously in doubt.

CONTENT OF THE SKILL TEST

(d) The skill test contents and sections set out in this AMC should be used for the skill test for the issue of a LAPL(S) and of an SPL:

SECTION 1 PRE-FLIGHT OPERATIONS AND DEPARTURE

Use of checklist, airmanship (control of sailplane by external visual reference), look-out. Apply in all sections.

a

Pre-flight sailplane (daily) inspection, documentation, NOTAM and weather briefing

b

Verifying in-limits mass and balance and performance calculation

c

Sailplane servicing compliance

d

Pre-take-off checks

SECTION 2 LAUNCH METHOD

Note: at least for one of the three launch methods all the mentioned items are fully exercised during the skill test

SECTION 2 (A) WINCH OR CAR LAUNCH 

a

Signals before and during launch, including messages to winch driver

b

Adequate profile of winch launch

c

Simulated launch failure 

d

Situational awareness

SECTION 2 (B) AEROTOW LAUNCH

a

Signals before and during launch, including signals to or communications with tow plane pilot for any problems

b

Initial roll and take-off climb 

c

Launch abandonment (simulation only or ‘talk-through’)

d

Correct positioning during straight flight and turns

e

Out of position and recovery 

f

Correct release from tow

g

Look-out and airmanship through whole launch phase

SECTION 2 (C) SELF-LAUNCH

(powered sailplanes only)

a

ATC compliance (if applicable)

b

Aerodrome departure procedures

c

Initial roll and take-off climb

d

Look-out and airmanship during the whole take-off

e

Simulated engine failure after take-off

f

Engine shut down and stowage

SECTION 3 GENERAL AIRWORK 

a

Maintain straight flight: attitude and speed control 

b

Coordinated medium (30 ° bank) turns, look-out procedures and collision avoidance

c

Turning on to selected headings visually and with use of compass

d

Flight at high angle of attack (critically low air speed)

e

Clean stall and recovery 

f

Spin avoidance and recovery

g

Steep (45 ° bank) turns, look-out procedures and collision avoidance

h

Local area navigation and awareness

SECTION 4 CIRCUIT, APPROACH AND LANDING

a

Aerodrome circuit joining procedure

b

Collision avoidance: look-out procedures

c

Pre-landing checks

d

Circuit, approach control and landing

e

Precision landing (simulation of out-landing and short field) 

f

Crosswind landing if suitable conditions available

AMC2 FCL.125; FCL.235

ED Decision 2011/016/R

CONTENTS OF THE SKILL TEST FOR THE ISSUE OF A LAPL(B) AND A BPL

(a) The take-off site should be chosen by the applicant depending on the actual meteorological conditions, the area which has to be over flown and the possible options for suitable landing sites. The applicant should be responsible for the flight planning and should ensure that all equipment and documentation for the execution of the flight are on board.

(b) An applicant should indicate to the FE the checks and duties carried out. Checks should be completed in accordance with the flight manual or the authorised checklist for the balloon on which the test is being taken. During pre-flight preparation for the test the applicant should be required to perform crew and passenger briefings and demonstrate crowd control. The load calculation should be performed by the applicant in compliance with the operations manual or flight manual for the balloon used.

FLIGHT TEST TOLERANCE

(c) The applicant should demonstrate the ability to:

(1) operate the balloon within its limitations;

(2) complete all manoeuvres with smoothness and accuracy

(3) exercise good judgment and airmanship;

(4) apply aeronautical knowledge;

(5) maintain control of the balloon at all times in such a manner that the successful outcome of a procedure or manoeuvre is never seriously in doubt.

CONTENT OF THE SKILL TEST

(d) The skill test contents and sections set out in this paragraph should be used for the skill test for the issue of a LAPL(B) (hot-air balloon) and a BPL (hot-air balloon):

SECTION 1 PRE-FLIGHT OPERATIONS, INFLATION AND TAKE-OFF

Use of checklist, airmanship, control of balloon by external visual reference, look-out procedures, etc. apply in all sections.

a

Pre-flight documentation, flight planning, NOTAM and weather briefing

b

Balloon inspection and servicing

c

Load calculation 

d

Crowd control, crew and passenger briefings

e

Assembly and layout

f

Inflation and pre-take-off procedures

g

Take-off

h

ATC compliance(if applicable)

SECTION 2 GENERAL AIRWORK

a

Climb to level flight

b

Level flight

c

Descent to level flight

d

Operating at low level

e

ATC compliance (if applicable)

SECTION 3 EN-ROUTE PROCEDURES

a

Dead reckoning and map reading

b

Marking positions and time

c

Orientation and airspace structure

d

Maintenance of altitude

e

Fuel management

f

Communication with retrieve crew

g

ATC compliance

SECTION 4 APPROACH AND LANDING PROCEDURES

a

Approach from low level, missed approach and fly on

b

Approach from high level, missed approach and fly on

c

Pre-landing checks

d

Passenger pre-landing briefing

e

Selection of landing field

f

Landing, dragging and deflation

g

ATC compliance (if applicable)

h

Actions after flight

SECTION 5 ABNORMAL AND EMERGENCY PROCEDURES

a

Simulated fire on the ground and in the air 

b

Simulated pilot light and burner failures

c

Other abnormal and emergency procedures as outlined in the appropriate flight manual.

d

Oral questions

(e) The skill test contents and sections set out in this paragraph should be used for the skill test for the issue of a LAPL(B) (gas balloon) and a BPL (gas balloon):

SECTION 1 PRE-FLIGHT OPERATIONS, INFLATION AND TAKE-OFF

Use of checklist, airmanship, control of balloon by external visual reference, look-out procedures, etc. apply in all sections.

a

Pre-flight documentation, flight planning, NOTAM and weather briefing

b

Balloon inspection and servicing

c

Load calculation 

d

Crowd control, crew and passenger briefings

e

Assembly and layout

f

Inflation and pre-take-off procedures

g

Take-off

h

ATC compliance (if applicable)

SECTION 2 GENERAL AIRWORK

a

Climb to level flight

b

Level flight

c

Descent to level flight

d

Operating at low level

e

ATC compliance (if applicable)

SECTION 3 EN-ROUTE PROCEDURES

a

Dead reckoning and map reading

b

Marking positions and time

c

Orientation and airspace structure

d

Maintenance of altitude

e

Ballast management

f

Communication with retrieve crew

g

ATC compliance 

SECTION 4 APPROACH AND LANDING PROCEDURES

a

Approach from low level, missed approach and fly on

b

Approach from high level, missed approach and fly on

c

Pre-landing checks

d

Passenger pre-landing briefing

e

Selection of landing field

f

Landing, dragging and deflation

g

ATC compliance (if applicable)

h

Actions after flight

SECTION 5 ABNORMAL AND EMERGENCY PROCEDURES

a

Simulated closed appendix during take-off and climb

b

Simulated parachute or valve failure

c

Other abnormal and emergency procedures as outlined in the appropriate flight manual

d

Oral questions