### Q121: What do longitudinal stripes of uniform dimensions arranged symmetrically about the centreline of a runway indicate? ^t10q121 - A) A ground roll could be started from this position - B) At this point the glide path of an ILS meets the runway - C) Do not touch down behind them - D) Do not touch down before them **Correct: D)** > **Explanation:** Longitudinal stripes arranged symmetrically about the runway centreline are the threshold markings, indicating the beginning of the runway available for landing. Pilots must not touch down before these markings because the area ahead of the threshold may not be suitable for landing. A (ground roll start position) is not what threshold markings indicate. B (ILS glide path intersection) is marked differently, typically with aiming point markings further down the runway. C (do not touch down behind them) reverses the actual meaning -- the restriction is before, not behind. ### Q122: How can a pilot in flight acknowledge a search and rescue signal on the ground? ^t10q122 - A) Deploy and retract the landing flaps multiple times - B) Fly in a parabolic flight path multiple times - C) Push the rudder in both directions multiple times - D) Rock the wings **Correct: D)** > **Explanation:** Per ICAO Annex 12, the internationally recognised method for a pilot in flight to acknowledge a ground SAR signal is to rock the wings (waggle them laterally from side to side). This is clearly visible from the ground and unambiguous. A (repeated flap deployment) is not a standard acknowledgement signal. B (parabolic flight path) is not a defined SAR procedure. C (rudder inputs) would produce yaw oscillations that are very difficult to observe from the ground. ### Q123: An aerodrome beacon (ABN) is a... ^t10q123 - A) Rotating beacon installed at the beginning of the final approach to indicate its location to aircraft pilots from the air. - B) Fixed beacon installed at an airport or aerodrome to indicate its location to aircraft pilots from the air. - C) Rotating beacon installed at an airport or aerodrome to indicate its location to aircraft pilots from the ground. - D) Rotating beacon installed at an airport or aerodrome to indicate its location to aircraft pilots from the air. **Correct: D)** > **Explanation:** An aerodrome beacon (ABN) is defined by ICAO as a rotating beacon installed at or near an aerodrome to help pilots locate it from the air, particularly at night or in reduced visibility. A is wrong because the ABN is installed at the aerodrome, not at the beginning of the final approach (that would be an approach lighting system). B is wrong because the ABN rotates rather than being fixed. C is wrong because the beacon is intended to be seen from the air by approaching pilots, not from the ground. ### Q124: What is the primary objective of an aircraft accident investigation? ^t10q124 - A) To work for the public prosecutor and help to follow-up flight accidents - B) To determine the guilty party and draw legal consequences - C) To identify the causes and develop safety recommendations - D) To clarify questions of liability within the meaning of compensation for passengers **Correct: C)** > **Explanation:** Under ICAO Annex 13 and EU Regulation 996/2010, the sole objective of an aircraft accident investigation is to identify the causes and contributing factors and to develop safety recommendations to prevent future accidents. The investigation is explicitly separated from judicial and liability processes. A is wrong because the investigation does not serve the public prosecutor. B is wrong because establishing guilt is outside the scope of a safety investigation. D is wrong because liability and compensation questions are matters for civil courts, not the accident investigation authority. ### Q125: What is the validity period of the Certificate of Airworthiness? ^t10q125 - A) 6 months - B) 12 months - C) 12 years - D) Unlimited **Correct: D)** > **Explanation:** A Certificate of Airworthiness (CofA) issued under ICAO Annex 8 and EASA regulations has an unlimited validity period, provided the aircraft is continuously maintained in accordance with its approved maintenance programme. The CofA itself has no expiry date. However, the Airworthiness Review Certificate (ARC), which must be renewed annually, must remain valid for continued operation. A (6 months), B (12 months), and C (12 years) are all incorrect fixed periods that do not apply to the CofA. ### Q126: What does the abbreviation ARC stand for? ^t10q126 - A) Airspace Rulemaking Committee - B) Airspace Restriction Criteria - C) Airworthiness Recurring Control - D) Airworthiness Review Certificate **Correct: D)** > **Explanation:** ARC stands for Airworthiness Review Certificate, the document issued following a successful airworthiness review confirming that an aircraft meets all applicable airworthiness requirements at the time of review. It is valid for one year and must be renewed to allow continued operation. A (Airspace Rulemaking Committee), B (Airspace Restriction Criteria), and C (Airworthiness Recurring Control) are not recognised EASA or ICAO abbreviations. ### Q127: The Certificate of Airworthiness is issued by the state... ^t10q127 - A) In which the aircraft is constructed. - B) Of the residence of the owner. - C) In which the aircraft is registered. - D) In which the airworthiness review is done. **Correct: C)** > **Explanation:** Under the Chicago Convention (ICAO Annex 7) and EASA regulations, the Certificate of Airworthiness is issued by the State of Registry -- the country in which the aircraft is registered. This is the state that maintains continuing airworthiness oversight. A (state of manufacture) is the state of design/production, which issues the Type Certificate but not the individual CofA. B (owner's residence) is irrelevant to CofA issuance. D (state where the review was done) may differ from the state of registry and does not determine CofA issuance. ### Q128: What does the abbreviation SERA stand for? ^t10q128 - A) Standard European Routes of the Air - B) Standardized European Rules of the Air - C) Specialized Radar Approach - D) Selective Radar Altimeter **Correct: B)** > **Explanation:** SERA stands for Standardised European Rules of the Air, established by Commission Implementing Regulation (EU) No 923/2012. SERA harmonises rules of the air across all EASA member states, replacing the patchwork of national rules with a single European standard. A (Standard European Routes of the Air) is not a recognised abbreviation. C (Specialized Radar Approach) and D (Selective Radar Altimeter) are unrelated to rules of the air and are not standard aviation abbreviations. ### Q129: What does the abbreviation TRA stand for? ^t10q129 - A) Temporary Radar Routing Area - B) Terminal Area - C) Transponder Area - D) Temporary Reserved Airspace **Correct: D)** > **Explanation:** TRA stands for Temporary Reserved Airspace, an airspace of defined dimensions temporarily reserved for specific uses such as military exercises, parachute operations, or aerial displays. Other aircraft may not enter without explicit permission from the managing authority. A (Temporary Radar Routing Area), B (Terminal Area), and C (Transponder Area) are not standard ICAO or EASA designations for this abbreviation. ### Q130: What does an area marked as TMZ signify? ^t10q130 - A) Traffic Management Zone - B) Transportation Management Zone - C) Touring Motorglider Zone - D) Transponder Mandatory Zone **Correct: D)** > **Explanation:** TMZ stands for Transponder Mandatory Zone, a designated airspace where all aircraft must be equipped with and operate a functioning transponder. This allows ATC radar to identify and track all traffic within the zone for improved situational awareness and safety. A (Traffic Management Zone), B (Transportation Management Zone), and C (Touring Motorglider Zone) are not recognised aviation terms for this abbreviation. ### Q131: A flight is categorised as a visual flight when the... ^t10q131 - A) Visibility in flight exceeds 8 km. - B) Flight is conducted in visual meteorological conditions. - C) Flight is conducted under visual flight rules. - D) Visibility in flight exceeds 5 km. **Correct: C)** > **Explanation:** A flight is categorised as a visual flight (VFR flight) when it is conducted under visual flight rules, as defined in ICAO Annex 2 and SERA. This is a regulatory classification, not a purely meteorological one. A (8 km visibility) and D (5 km visibility) describe specific VMC thresholds but do not define VFR as a concept. B (conducted in VMC) describes the meteorological conditions required for VFR flight but is not the definition of a VFR flight itself -- a flight conducted in VMC could still be an IFR flight. ### Q132: What does the abbreviation VMC stand for? ^t10q132 - A) Visual flight rules - B) Visual meteorological conditions - C) Instrument flight conditions - D) Variable meteorological conditions **Correct: B)** > **Explanation:** VMC stands for Visual Meteorological Conditions, which are the specific visibility and cloud clearance conditions under which VFR flight is permitted. VMC describes the weather, not the rules. A (Visual Flight Rules) is VFR, not VMC -- these are the rules followed when VMC prevails. C (Instrument flight conditions) is the opposite concept, known as IMC. D (Variable meteorological conditions) is not a recognised aviation abbreviation. ### Q133: In airspace E, what is the minimum flight visibility for a VFR aircraft at FL75? ^t10q133 - A) 3000 m - B) 8000 m - C) 1500 m - D) 5000 m **Correct: D)** > **Explanation:** In Class E airspace below FL100, the minimum VFR flight visibility per SERA is 5,000 m (5 km). FL75 is below FL100, so the 5 km minimum applies. B (8,000 m) is the visibility requirement at and above FL100 in this airspace. C (1,500 m) is the minimum for low-level Class G airspace. A (3,000 m) does not correspond to any standard SERA VFR visibility minimum. D correctly states 5,000 m. ### Q134: In airspace C, what is the minimum flight visibility for a VFR aircraft at FL110? ^t10q134 - A) 5000 m - B) 1500 m - C) 3000 m - D) 8000 m **Correct: D)** > **Explanation:** In controlled airspace Class C at and above FL100, the minimum VFR flight visibility required by SERA is 8,000 m (8 km). FL110 is above FL100, so the 8 km minimum applies. A (5,000 m) is the minimum below FL100. B (1,500 m) applies to certain low-altitude or special VFR situations. C (3,000 m) does not match any standard SERA VFR visibility for this context. D correctly states 8,000 m. ### Q135: In airspace C, what is the minimum flight visibility for a VFR aircraft at FL125? ^t10q135 - A) 1500 m - B) 3000 m - C) 5000 m - D) 8000 m **Correct: D)** > **Explanation:** In Class C airspace at and above FL100, the minimum VFR flight visibility is 8,000 m (8 km) per SERA. FL125 is above FL100, confirming the 8 km requirement. C (5,000 m) applies below FL100 in Class C. A (1,500 m) applies to low-level uncontrolled or special VFR operations. B (3,000 m) does not match any SERA VFR minimum at this altitude. D is correct. ### Q136: What are the minimum cloud clearance requirements for a VFR flight in airspace B? ^t10q136 - A) Horizontally 1.000 m, vertically 1.500 ft - B) Horizontally 1.000 m, vertically 300 m - C) Horizontally 1.500 m, vertically 1.000 m - D) Horizontally 1.500 m, vertically 300 m **Correct: D)** > **Explanation:** In ICAO airspace Class B (and also Classes C and D), the cloud clearance minima for VFR flights are 1,500 m horizontally and 300 m (approximately 1,000 ft) vertically. A mixes metric and imperial units incorrectly. B uses only 1,000 m horizontal clearance, which is below the required minimum. C uses 1,000 m vertical clearance, which is significantly more than the required 300 m. D correctly states both values. ### Q137: In airspace C below FL 100, what is the minimum flight visibility for VFR operations? ^t10q137 - A) 10 km - B) 8 km - C) 5 km - D) 1.5 km **Correct: C)** > **Explanation:** In Class C airspace below FL100, the SERA-prescribed minimum VFR flight visibility is 5 km (5,000 m). B (8 km) is the requirement at and above FL100, not below it. D (1.5 km) applies to special VFR or certain low-altitude Class G operations. A (10 km) is not a standard SERA visibility minimum for any airspace class. C correctly states the below-FL100 Class C requirement. ### Q138: In airspace C at and above FL 100, what is the minimum flight visibility for VFR operations? ^t10q138 - A) 5 km - B) 1.5 km - C) 8 km - D) 10 km **Correct: C)** > **Explanation:** In Class C airspace at and above FL100, the minimum VFR visibility required by SERA is 8 km (8,000 m). The higher visibility requirement at these altitudes reflects the greater closing speeds between aircraft and the need for earlier visual detection. A (5 km) is the below-FL100 minimum. B (1.5 km) applies to special VFR or low-level operations. D (10 km) is not a standard SERA VFR visibility minimum. C is correct. ### Q139: How is the term "ceiling" defined? ^t10q139 - A) Altitude of the base of the lowest cloud layer covering more than half the sky below 20000 ft. - B) Height of the base of the lowest cloud layer covering more than half the sky below 20000 ft. - C) Height of the base of the highest cloud layer covering more than half the sky below 20000 ft. - D) Height of the base of the lowest cloud layer covering more than half the sky below 10000 ft. **Correct: B)** > **Explanation:** The ICAO definition of ceiling is the height (above the surface, not altitude above MSL) of the base of the lowest cloud layer covering more than half the sky (BKN or OVC, i.e., more than 4 oktas), below 20,000 ft. A uses "altitude" (referenced to MSL) instead of "height" (referenced to the surface), which is technically incorrect per the ICAO definition. C incorrectly refers to the highest cloud layer rather than the lowest. D incorrectly limits the ceiling definition to below 10,000 ft instead of the correct 20,000 ft threshold. ### Q140: Regarding separation in airspace E, which statement is accurate? ^t10q140 - A) VFR traffic is separated only from IFR traffic - B) VFR traffic receives no separation from any traffic - C) IFR traffic is separated only from VFR traffic - D) VFR traffic is separated from both VFR and IFR traffic **Correct: B)** > **Explanation:** In Class E airspace, ATC provides separation services only between IFR flights. VFR flights receive no separation from any traffic -- neither from IFR nor from other VFR flights. VFR pilots in Class E rely entirely on the see-and-avoid principle. A incorrectly states that VFR is separated from IFR. C incorrectly states that IFR is separated only from VFR (IFR is separated from other IFR). D incorrectly states that VFR receives full separation from all traffic. ### Q141: What kind of information is contained in the AD section of the AIP? ^t10q141 - A) Map icons, list of radio nav aids, time for sunrise and sunset, airport fees, air traffic control fees - B) Table of content, classification of airfields with corresponding maps, approach charts, taxi charts - C) Warnings for aviation, ATS airspaces and routes, restricted and dangerous airspaces. - D) Access restrictions for airfields, passenger controls, requirements for pilots, license samples and validity periods **Correct: B)** > **Explanation:** The AIP is divided into three parts: GEN (General), ENR (En Route), and AD (Aerodromes). The AD section contains aerodrome-specific information including classification of airfields, aerodrome charts, approach charts, taxi charts, and operational details for each aerodrome. A describes content typically found in the GEN or ENR sections. C describes ENR content (airspace, warnings, routes). D describes GEN content (regulatory requirements, licensing). B correctly identifies AD section content. ### Q142: How is "aerodrome elevation" defined? ^t10q142 - A) The lowest point of the landing area. - B) The average value of the height of the manoeuvring area. - C) The highest point of the apron. - D) The highest point of the landing area. **Correct: D)** > **Explanation:** Aerodrome elevation is defined by ICAO as the elevation of the highest point of the landing area. This definition is used because the highest point represents the most critical reference for obstacle clearance calculations and QFE settings. A (lowest point) would understate the elevation and could lead to inadequate terrain clearance. B (average of the manoeuvring area) does not capture the critical highest point. C (highest point of the apron) is incorrect because the apron is a parking/loading area, not part of the landing area. ### Q143: How is the term "runway" defined? ^t10q143 - A) Rectangular area on a land aerodrome prepared for the landing and take-off of helicopters. - B) Rectangular area on a land or water aerodrome prepared for the landing and take-off of aircraft. - C) Round area on an aerodrome prepared for the landing and take-off of aircraft. - D) Rectangular area on a land aerodrome prepared for the landing and take-off of aircraft. **Correct: D)** > **Explanation:** ICAO Annex 14 defines a runway as a defined rectangular area on a land aerodrome prepared for the landing and take-off of aircraft. The key elements are: rectangular shape, on land, and for aircraft in general. A is wrong because helicopter landing areas are called helipads or FATO (Final Approach and Take-Off area). B incorrectly includes water aerodromes, which have different designated areas for seaplane operations. C is wrong because runways are rectangular, not round. ### Q144: What does DETRESFA mean? ^t10q144 - A) Uncertainty phase - B) Rescue phase - C) Alerting phase - D) Distress phase **Correct: D)** > **Explanation:** DETRESFA is the ICAO codeword for the distress phase, the highest and most serious of the three emergency phases. It indicates that an aircraft is believed to be in grave and imminent danger requiring immediate assistance. The three ICAO emergency phases are: INCERFA (uncertainty phase, A), ALERFA (alerting phase, C), and DETRESFA (distress phase, D). B (rescue phase) is not a defined ICAO emergency phase designation.