### Q91: Are observed or received signals binding for the glider pilot? ^t10q91 - A) Yes, but only signals placed on the ground, not light signals. - B) No. - C) Yes. - D) Yes, except light signals for aircraft on the ground. **Correct: C)** > **Explanation:** All observed or received signals -- whether ground signals, light signals, or radio signals -- are binding for the glider pilot. ICAO Annex 2 makes no distinction between signal types; compliance with all visual and radio signals is mandatory for all aircraft, including gliders. Option A is wrong because light signals are equally binding. Option B is wrong because signals are mandatory, not optional. Option D incorrectly excludes light signals for grounded aircraft, which are also binding. ### Q92: What is the minimum flight height above densely populated areas and locations where large public gatherings occur? ^t10q92 - A) 300 m AGL. - B) 150 m AGL above the highest obstacle within a 600 m radius of the aircraft. - C) 600 m AGL. - D) There is no specific height figure; however, one must fly in a manner that allows reaching clear terrain suitable for a risk-free landing at any time. **Correct: B)** > **Explanation:** Per SERA.5005, the minimum flight height over densely populated areas and large public gatherings is 150 m (500 ft) above the highest obstacle within a 600 m radius of the aircraft. This obstacle-based rule ensures adequate clearance from structures and protects people on the ground. Option A (300 m AGL) does not account for obstacle clearance. Option C (600 m AGL) is higher than the actual requirement. Option D describes a general safety principle but not the specific regulatory minimum. ### Q93: In which airspace classes may VFR flights be conducted in Switzerland without needing air traffic control services? ^t10q93 - A) In Class C, D, E and G airspaces. - B) Only in Class G airspace. - C) In Class E and G airspaces. - D) In Class A and B airspaces. **Correct: C)** > **Explanation:** In Switzerland, VFR flights may be conducted without ATC services in Class E and Class G airspace. Class E is controlled for IFR but does not require ATC interaction for VFR flights; Class G is entirely uncontrolled. Option A incorrectly includes Classes C and D, which require ATC clearance. Option B is too restrictive because Class E also permits VFR without ATC. Option D is wrong because Classes A and B either prohibit VFR or require ATC clearance. ### Q94: What does this signal indicate? ^t10q94 ![[figures/bazl_102_q4.png]] - A) The pilot may choose the landing direction. - B) Caution during approach and landing. - C) This signal applies only to powered aircraft. - D) Landing prohibited. **Correct: B)** > **Explanation:** The signal shown indicates caution during approach and landing, warning pilots to exercise extra care due to obstacles, poor surface conditions, or other hazards at the aerodrome. This is a standard ICAO ground signal placed in the signals area. Option A is wrong because the signal does not indicate free choice of landing direction. Option C is wrong because the signal applies to all aircraft types, not just powered aircraft. Option D describes a different signal (red square with white diagonal crosses). ### Q95: In which document must technical deficiencies found during aircraft operation be recorded? ^t10q95 - A) In the maintenance manual. - B) In the journey log (aircraft logbook). - C) In the aircraft flight manual. - D) In the operations manual. **Correct: B)** > **Explanation:** Technical deficiencies discovered during aircraft operation must be recorded in the journey log (aircraft logbook/tech log). This is the official document tracking the aircraft's technical status and operational history, ensuring maintenance organisations are informed of defects requiring attention. Option A (maintenance manual) contains procedures, not deficiency records. Option C (aircraft flight manual) describes operating limitations and procedures. Option D (operations manual) covers organisational procedures, not individual aircraft defect tracking. ### Q96: How is the use of cameras regulated at the international level? ^t10q96 - A) Use is generally prohibited. - B) Each State is free to prohibit or regulate their use over its territory. - C) Use is generally permitted. - D) Private use is generally permitted; commercial photography is subject to authorisation. **Correct: B)** > **Explanation:** At the international level, there is no uniform ICAO rule on the use of cameras from aircraft. Each State is free to prohibit or regulate their use over its territory according to its own national laws, which may vary based on security, privacy, or military considerations. Option A is wrong because there is no blanket international prohibition. Option C is wrong because there is no blanket international permission either. Option D incorrectly distinguishes between private and commercial use at the international level, which is a national-level distinction. ### Q97: What do white or other visible coloured signals placed horizontally on a runway signify? ^t10q97 - A) They mark the landing area in use. - B) Glider flying in progress at this aerodrome. - C) The delineated runway portion is not usable. - D) Caution during approach and landing. **Correct: C)** > **Explanation:** White or other visible coloured signals placed horizontally on a runway indicate that the marked portion of the runway is not usable -- it may be closed, under construction, or degraded. Pilots must avoid landing on or rolling over these marked areas. Option A is wrong because these signals indicate closure, not active use. Option B describes a different ground signal (the glider operations symbol). Option D is a general caution signal displayed in the signals area, not on the runway itself. ### Q98: How should flight time be recorded when two pilots fly together? ^t10q98 - A) Each pilot logs only the flight time during which they were actually flying. - B) The pilot who made the landing may log the total flight time; the other only the time during which they were actually flying. - C) Each pilot may log the total flight time, as both hold a licence. - D) Each pilot logs half the time. **Correct: C)** > **Explanation:** When two licensed pilots fly together, each pilot may log the total flight time in their personal logbook, since both are qualified licence holders participating in the flight. This is in accordance with Swiss and ICAO logging rules. Option A is unnecessarily restrictive and does not reflect the regulation. Option B creates an arbitrary distinction based on who performed the landing. Option D (splitting time in half) has no basis in aviation regulations. ### Q99: When one aircraft overtakes another in flight, how must it give way? ^t10q99 - A) Turn upward. - B) Turn left. - C) Turn downward. - D) Turn right. **Correct: D)** > **Explanation:** Per SERA.3210 and ICAO Annex 2, an overtaking aircraft must give way by altering course to the right, passing the slower aircraft on its right side. The overtaking aircraft bears full responsibility for maintaining safe separation throughout the manoeuvre. Option A (turn upward) and Option C (turn downward) are not the prescribed overtaking procedure. Option B (turn left) is incorrect -- the standard rule requires turning right to overtake. ### Q100: For which domestic Swiss flights is a flight plan required? ^t10q100 - A) For a VFR flight in controlled airspace. - B) For a VFR flight over the Alps. - C) For a VFR flight that requires the use of air traffic control services. - D) For a VFR flight covering more than 300 km without a stop. **Correct: C)** > **Explanation:** In Switzerland, a domestic VFR flight plan is required when the flight needs to use air traffic control services, such as when transiting a CTR or TMA where ATC interaction is mandatory. Option A is too broad because not all controlled airspace requires a flight plan (e.g., Class E). Option B (Alps) does not automatically trigger a flight plan requirement. Option D (300 km distance) is not a Swiss flight plan criterion. ### Q101: During a VFR flight, who is responsible for collision avoidance? ^t10q101 - A) The second pilot when two pilots are on board. - B) The flight information service. - C) The air traffic control service. - D) The pilot-in-command of the aircraft. **Correct: D)** > **Explanation:** During VFR flight, the pilot-in-command (PIC) bears full responsibility for collision avoidance using the see-and-avoid principle. This applies regardless of whether ATC or FIS provides traffic information. Option A is wrong because responsibility always lies with the PIC, not the second pilot. Option B (FIS) provides information but has no separation responsibility. Option C (ATC) may provide traffic information but VFR collision avoidance remains the PIC's responsibility. ### Q102: Which event qualifies as an aviation accident? ^t10q102 - A) Any event related to the operation of an aircraft during which at least one person was killed or seriously injured. - B) Any event related to the operation of an aircraft requiring costly repairs. - C) Any event related to the operation of an aircraft during which a person was killed or seriously injured, or the aircraft sustained damage notably affecting its structural strength, performance or flight characteristics. - D) Only the crash of an aircraft. **Correct: C)** > **Explanation:** Under ICAO Annex 13, an aviation accident is an event related to aircraft operation where a person was killed or seriously injured, OR the aircraft sustained damage significantly affecting its structural strength, performance, or flight characteristics. Both conditions independently constitute an accident. Option A is incomplete because it only mentions personal injury. Option B is wrong because cost alone does not define an accident. Option D is too narrow -- many accidents involve damage short of a complete crash. ### Q103: Which of the following exceptions to the right-of-way rules for converging routes is incorrect? ^t10q103 - A) Airships give way to gliders. - B) Aircraft give way to aircraft that are visibly towing other aircraft or objects. - C) Gliders give way to aircraft that are towing. - D) Gliders and motor gliders give way to free balloons. **Correct: C)** > **Explanation:** Option C is the incorrect statement. Under SERA.3210, aircraft towing other aircraft or objects receive right-of-way priority -- meaning other aircraft (including gliders) do NOT have to give way to towing aircraft; rather, all aircraft must give way TO towing aircraft. Option C reverses this: it claims gliders give way to towing aircraft, but the actual rule is that towing aircraft give way to gliders (gliders have higher priority). Options A, B, and D all correctly state valid right-of-way exceptions. ### Q104: What minimum meteorological conditions are required to take off or land at an aerodrome in a CTR without Special VFR authorization? ^t10q104 - A) Ground visibility 5 km, ceiling 450 m/GND. - B) Ground visibility 8 km, ceiling 450 m/GND. - C) Ground visibility 1.5 km, ceiling 300 m/GND. - D) Ground visibility 5 km, ceiling 150 m/GND. **Correct: C)** > **Explanation:** Under Swiss regulations, the minimum meteorological conditions for take-off or landing at an aerodrome within a CTR without requiring Special VFR authorisation are: ground visibility of 1.5 km and a ceiling of 300 m above ground level. These are the basic SVFR minima in Switzerland. Option A and Option B use higher visibility values than required. Option D uses an insufficient ceiling of 150 m. These values are specific to Swiss operations within CTRs. ### Q105: For VFR flights in a terminal control area or control zone, how is the vertical position of an aircraft expressed below the transition altitude? ^t10q105 - A) As flight level. - B) Either as altitude or height. - C) As height. - D) As altitude. **Correct: D)** > **Explanation:** Below the transition altitude in a TMA or CTR, the vertical position of an aircraft is expressed as altitude (height above mean sea level using the QNH altimeter setting). Flight levels are only used at or above the transition altitude. Option A (flight level) applies above the transition altitude, not below it. Option B (either altitude or height) is incorrect because the standard expression below transition altitude in controlled airspace is specifically altitude. Option C (height) is used for specific purposes like circuit height but is not the standard expression in TMAs/CTRs. ### Q106: In Switzerland, what is the minimum visibility required for VFR flight in Class G airspace without special conditions? ^t10q106 - A) 5 km. - B) 8 km. - C) 10 km. - D) 1.5 km. **Correct: D)** > **Explanation:** In Class G airspace in Switzerland, without special conditions and at low altitudes (below 3000 ft AMSL or within 1000 ft of the surface), the minimum VFR visibility is 1.5 km. This is the lowest visibility minimum in the SERA VMC table. Option A (5 km) applies in controlled airspace below FL100. Option B (8 km) applies at and above FL100. Option C (10 km) is not a standard SERA VFR visibility minimum. ### Q107: May a Flight Information Zone (FIZ) be transited without any additional formality? ^t10q107 - A) No, transit is not permitted under any circumstances for VFR flights. - B) Yes. - C) Yes, but only with the authorisation of the Flight Information Service (FIS) and only if the pilot is qualified to use radiotelephony in English. - D) Only if permanent radio contact with the Aerodrome Flight Information Service (AFIS) is maintained. Otherwise, the rules of the airspace class in which the FIZ is located apply. **Correct: D)** > **Explanation:** A FIZ may be transited by VFR flights, provided permanent radio contact with the Aerodrome Flight Information Service (AFIS) is maintained throughout the transit. If radio contact cannot be established, the pilot must follow the rules of the airspace class in which the FIZ is located. Option A is wrong because transit is not prohibited. Option B is wrong because transit is not unconditional -- AFIS contact is required. Option C incorrectly requires English-language radiotelephony qualification, which is not a specific FIZ transit requirement. ### Q108: Who is responsible for the regulatory maintenance of an aircraft? ^t10q108 - A) The maintenance organisation. - B) The mechanic. - C) The operator. - D) The owner. **Correct: C)** > **Explanation:** The operator is legally responsible for ensuring that regulatory maintenance of the aircraft is carried out in accordance with approved maintenance programmes. While the maintenance organisation (Option A) and mechanic (Option B) perform the physical work, the legal responsibility for ensuring maintenance compliance rests with the operator. Option D (owner) is not necessarily the operator -- for private aircraft the owner often acts as operator, but the regulatory responsibility is tied to the operator role specifically. ### Q109: When two aircraft approach an aerodrome at the same time to land, which one has the right of way? ^t10q109 - A) The one flying higher. - B) The faster one. - C) The smaller one. - D) The one flying lower. **Correct: D)** > **Explanation:** When two aircraft approach an aerodrome simultaneously to land, the aircraft flying lower has right of way because it is in a more advanced and committed phase of the approach. The higher aircraft must give way by extending its circuit or going around. Option A (flying higher) is the opposite of the correct rule. Option B (faster) and Option C (smaller) are not criteria used in ICAO right-of-way rules for landing priority. Speed and size are irrelevant to this determination. ### Q110: What are the minimum VMC values in Class E airspace at 6500 ft (2000 m) AMSL? Visibility - Cloud clearance: vertically - horizontally ^t10q110 - A) 8.0 km - 300 m - 1500 m - B) 1.5 km - 50 m - 100 m - C) 5.0 km - 300 m - 1500 m - D) 8.0 km - 100 m - 300 m **Correct: A)** > **Explanation:** At 6500 ft (2000 m) AMSL in Class E airspace, which is above 3000 ft AMSL and above 1000 ft AGL, the SERA.5001 VMC minima are: 8 km visibility, 300 m vertical cloud clearance, and 1500 m horizontal cloud clearance. Option B describes values for very low-altitude uncontrolled airspace, far too low for this altitude. Option C uses 5 km visibility, which is insufficient for Class E at this altitude. Option D has the correct visibility but incorrect cloud clearance values (100 m and 300 m are too small). ### Q111: What is the function of the signal square at an aerodrome? ^t10q111 - A) It is a specially marked area to pick up or drop towing objects - B) Aircraft taxi to this square to get light signals for taxi and take-off clearance - C) It contains special symbols to indicate the conditions at the aerodrome visually to over-flying aircraft - D) It is an illuminated area on which search and rescue and fire fighting vehicles are placed **Correct: C)** > **Explanation:** The signal square (also called the signals area) is a designated area at an aerodrome where ground signals are displayed using symbols, panels, and markings to visually communicate aerodrome conditions to pilots flying overhead. This is particularly important for pilots who cannot receive radio communication. Option A (tow object area) describes a completely different facility. Option B is wrong because aircraft do not taxi to the signal square for light signals -- those come from the control tower. Option D describes an emergency vehicle staging area, not the signal square. ### Q112: How are two parallel runways designated? ^t10q112 - A) The left runway gets the suffix "L", the right runway remains unchanged - B) The left runway remains unchanged, the right runway designator is increased by 1 - C) The left runway gets the suffix "-1", the right runway "-2" - D) The left runway gets the suffix "L", the right runway "R" **Correct: D)** > **Explanation:** Per ICAO Annex 14, when two parallel runways exist, they are distinguished by adding suffixes: "L" (Left) for the left runway and "R" (Right) for the right runway, as seen from a pilot on final approach. Both runways must receive a suffix to avoid ambiguity. Option A is wrong because the right runway also needs a suffix ("R"). Option B uses a non-standard method of incrementing the designator number. Option C uses dash-number notation that is not part of ICAO runway designation standards. ### Q113: Which runway designators are correct for two parallel runways? ^t10q113 - A) "24" and "25" - B) "18" and "18-2" - C) "26" and "26R" - D) "06L" and "06R" **Correct: D)** > **Explanation:** For two parallel runways, ICAO requires both to carry the L/R suffix with the same number, such as "06L" and "06R." This clearly identifies them as parallel runways on the same magnetic heading. Option A ("24" and "25") indicates two non-parallel runways on slightly different headings, not parallel runways. Option B ("18" and "18-2") uses non-standard dash notation. Option C ("26" and "26R") is incorrect because only one runway has a suffix -- both must have one (should be "26L" and "26R"). ### Q114: What does this sign at an aerodrome indicate? See figure (ALW-011) Siehe Anlage 1 ^t10q114 - A) Landing prohibited for a longer period - B) After take-off and before landing all turns have to be made to the right - C) Glider flying is in progress - D) Caution, manoeuvring area is poor **Correct: C)** > **Explanation:** The ALW-011 figure shows the international ground signal for glider operations in progress at the aerodrome. This warns pilots overflying the aerodrome that gliders may be operating in the vicinity, including tow-launching and soaring. Option A (landing prohibited for a longer period) uses a different signal (typically a red cross). Option B (right-hand turns) would be indicated by a different signal in the signals area. Option D (poor manoeuvring area) is also communicated through a different ground marking. ### Q115: What does "DETRESFA" signify? ^t10q115 - A) Rescue phase - B) Alerting phase - C) Distress phase - D) Uncertainty phase **Correct: C)** > **Explanation:** DETRESFA is the ICAO codeword for the distress phase, the most serious of the three emergency phases defined in ICAO Annex 12 and Annex 11. It is declared when an aircraft is believed to be in grave and imminent danger requiring immediate assistance. Option B (alerting phase) corresponds to the codeword ALERFA. Option D (uncertainty phase) corresponds to INCERFA. Option A (rescue phase) is not a defined ICAO emergency phase designation. ### Q116: Who provides the search and rescue service? ^t10q116 - A) Only civil organisations - B) International approved organisations - C) Both military and civil organisations - D) Only military organisations **Correct: C)** > **Explanation:** Per ICAO Annex 12, Search and Rescue (SAR) services are provided by both military and civil organisations, depending on national arrangements. Many countries combine military assets (helicopters, aircraft, ships) with civil emergency services for effective SAR coverage. Option A is wrong because military organisations play a major role in SAR operations worldwide. Option B incorrectly requires international approval, which is not how SAR is organised. Option D is wrong because civil organisations are also involved in SAR. ### Q117: In the context of aircraft accident and incident investigation, what are the three categories of aircraft occurrences? ^t10q117 - A) Event Serious event Accident - B) Incident Serious incident Accident - C) Happening Event Serious event - D) Event Crash Disaster **Correct: B)** > **Explanation:** Under ICAO Annex 13 and EU Regulation 996/2010, aircraft occurrences are classified into three categories: incident (an occurrence that affects or could affect flight safety), serious incident (an incident where there was a high probability of an accident), and accident (an occurrence resulting in fatal/serious injury or substantial aircraft damage). Option A, Option C, and Option D all use non-standard terminology ("event," "happening," "crash," "disaster") not found in ICAO definitions. ### Q118: While slope soaring with the hill on your left, another glider approaches from the opposite direction at the same altitude. What should you do? ^t10q118 - A) Pull on the elevator and divert upward - B) Divert to the right and expect the opposite glider to do the same - C) Divert to the right - D) Expect the opposite glider to divert **Correct: C)** > **Explanation:** When slope soaring and encountering an oncoming glider, the pilot with the hill on their left must give way by turning right (away from the hill). In this scenario, the hill is on your left, so the approaching glider has the hill on their right, giving them right-of-way. You must divert to the right. Option A (pull up) is impractical and dangerous in slope soaring conditions. Option B is partially correct in the action but wrong to expect the other glider to also turn -- they have right-of-way. Option D is wrong because you are the one who must give way. ### Q119: When circling in a thermal with other gliders, who determines the direction of turn? ^t10q119 - A) The glider at the highest altitude - B) The glider with the greatest bank angle - C) Circling is always to the left - D) The glider that entered the thermal first **Correct: D)** > **Explanation:** When joining a thermal already occupied by other gliders, the newly arriving pilot must circle in the same direction as the glider that first established the turn in that thermal. This convention ensures all gliders orbit in the same direction, preventing dangerous head-on conflicts within the thermal. Option A (highest glider) is wrong because altitude does not determine turn direction. Option B (greatest bank angle) is irrelevant to the rule. Option C is wrong because there is no fixed left-turn rule -- the first glider's choice establishes the direction. ### Q120: Is it possible for a glider to enter airspace C? ^t10q120 - A) No - B) Yes, but only with the transponder activated - C) With restrictions, in case of reduced air traffic - D) Yes, but only with approval of the respective ATC unit **Correct: D)** > **Explanation:** Airspace Class C is controlled airspace where ATC clearance is mandatory for all flights, including VFR and gliders. A glider may enter Class C airspace only after obtaining an explicit clearance from the responsible ATC unit. Option A is wrong because entry is possible with proper ATC clearance. Option B is wrong because while a transponder may be required, it alone is not sufficient -- ATC clearance is the fundamental requirement. Option C is wrong because there is no rule allowing entry based on traffic density without clearance.