CAA Cpl Exam W/Out Airlaw Master Study Guide | 100% Correct Answers | Verified | Latest 2024 Version

True course measurements on a Sectional Aeronautical Chart should be made at a meridian near the midpoint of the course because the (A)values of isogonic lines change from point to point. (B)angles formed by isogonic lines and lines of latitude vary from point to point. (C)angles formed by lines of longitude and the course line vary from point to point - (C)angles formed by lines of longitude and the course line vary from point to point (Refer to figure 1, point 9, on the inside front cover.) The alert area depicted within the blue lines is an area in which(如圖A21_Fig1) (A)there is a high volume of pilot training activities or an unusual type of aerial activity, neither of which is hazardous to aircraft. (B)the flight of aircraft is prohibited. (C)the flight of aircraft, while not prohibited, is subject to restriction. - (A)there is a high volume of pilot training activities or an unusual type of aerial activity, neither of which is hazardous to aircraft. (Refer to figure 1, point 7, on the inside front cover.) The floor of Class E airspace over the town of Woodland is(如圖A21_Fig1) (A)700 feet AGL over part of the town and no floor over the remainder. (B)1,200 feet AGL over part of the town and no floor over the remainder. (C)both 700 feet and 1,200 feet AGL. - (C)both 700 feet and 1,200 feet AGL. (Refer to figure 1, point 8. on the inside front cover.) The floor of the Class E airspace over the town of Auburn is(如圖A21_Fig1) (A)1,200 feet MSL. (B)700 feet AGL (C)1,200 feet AGL - (B)700 feet AGL (Refer to figure 1, point 1, on the inside front cover.) The floor of the Class E airspace above Georgetown Airport (Q61) is at(如圖A21_Fig1) (A)the surface. (B)3,823 feet MSL (C)700 feet AGL - (B)3,823 feet MSL(Refer to figure 1, point 5, on the inside front cover.) The floor of the Class E airspace over University Airport (005) is(如圖A21_Fig1) (A)the surface. (B)700 feet AGL (C)1,200 feet AGL - (B)700 feet AGL (Refer to figure 1, point 4, on the inside front cover.) The highest obstruction with high intensity lighting within 10 NM of Lincoln Regional Airport (LHM) is how high above the ground?(如圖A21_Fig1) (A)1,254 feet. (B)662 feet. (C)299 feet. - (C)299 feet. (Refer to figure 1, point 4, on the inside front cover.) The terrain at the obstruction approximately 8 NM east southeast of the Lincoln Airport is approximately how much higher than the airport elevation?(如圖 A21_Fig1) (A)376 feet. (B)835 feet. (C)1,135 feet. - (B)835 feet. (Refer to figure 2, point 1, on the inside back cover.) this thin black shaded line is most likely(如圖 A21_Fig2) (A)an arrival route. (B)a military training route. (C)a state boundary line. - B)a military training route. (Refer to figure 2, point 2, on the inside back cover.) The 16 indicates(如圖A21_Fig2) (A)an antenna top at 1,600 feet AGL. (B)the maximum elevation figure for that quadrangle. (C)the minimum safe sector altitude for that quadrangle. - (B)the maximum elevation figure for that quadrangle. (Refer to figure 3, point 6,on the outside back cover.) The Class C airspace at Metropolitan Oakland International (OAK) which extends from the surface upward has a ceiling of(如圖A21_Fig3) (A)both 2,100 feet and 3,000 feet MSL. (B)8,000 feet MSL. (C)2,100 feet AGL. - (A)both 2,100 feet and 3,000 feet MSL. (Refer to figure 3, point 1, on the outside back cover.) What minimum altitude is required to avoid the Livermore Airport (LVK) Class D airspace?(如圖A21_Fig3) (A)2,503 feet MSL. (B)2,901 feet MSL. (C)3,297 feet MSL. - (B)2,901 feet MSL.If an airplane is consuming 95 pounds of fuel per hour at a cruising altitude of 6,500 feet and the groundspeed Is 173 knots, how much fuel is required to travel 450 NM? (A)248 pounds. (B)265 pounds. (C)284 pounds. - (A)248 pounds. If fuel consumption is 80 pounds per hour and groundspeed is 180 knots, how much fuel is required for an airplane to travel 460 NM? (A)205 pounds. (B)212 pounds. (C)460 pounds. - (A)205 pounds. If an airplane is consuming 12.5 gallons of fuel per hour at a cruising altitude of 8,500 feet and the groundspeed is 145 knots, how much fuel is required to travel 435 NM? (A)27 gallons. (B)34 gallons. (C)38 gallons. - (C)38 gallons. If an airplane is consuming 9.5 gallons of fuel per hour at a cruising altitude of 6,000 feet and the groundspeed is 135 knots, how much fuel is required to travel 490 NM? (A)27 gallons. (B)30 gallons. (C)35 gallons. - (C)35 gallons. If an airplane is consuming 14.8 gallons of fuel per hour at a cruising altitude of 7,500 feet and the groundspeed is 167 knots, how much fuel is required to travel 560 NM? (A)50 gallons. (B)53 gallons. (C)57 gallons. - (A)50 gallons. If fuel consumption is 14.7 gallons per hour and groundspeed is 157 knots, how much fuel is required for an airplane to travel 612 NM? (A)58 gallons. (B)60 gallons. (C)64 gallons. - (A)58 gallons. (Refer to figure 4 below.) If the time flown between aircraft positions 2 and 3 is 13 minutes, what is the estimated time to the station?(如圖A21_Fig4) (A)13 minutes. (B)17 minutes. (C)26 minutes. - (A)13 minutes. (Refer to figure 5 .) !f the time flown between aircraft positions 2 and 3 is 15 minutes, what is the estimated time to the station ?(如圖A21_Fig5) (A)15 minutes. (B)30 minutes. (C)60 minutes. - (A)15 minutes.(Refer to figure 6 below.) If the time flown between aircraft positions 2 and 3 is 13 minutes, what is the estimated time to the station?(如圖A21_Fig6) (A)7.8 minutes. (B)13 minutes. (C)26 minutes. - (B)13 minutes. (Refer to figure 7 below.) If the time flown between aircraft positions 2 and 3 is 8 minutes, what is the estimated time to the station?(如圖A21_Fig7) (A)8 minutes. (B)16 minutes. (C)48 minutes. - (A)8 minutes. Inbound on the 040 radial, a pilot selects the 055 radial, turns 15 degree to the left, and notes the time. While maintaining a constant heading, the pilot notes the time for the CDI to center is 15 minutes. Based on this information, the ETE to the station is (A)8 minutes. (B)15 minutes. (C)30 minutes. - (B)15 minutes. Inbound on the 090 radial, a pilot rotates the OBS 010 degree to the left, turns 010 degree to the right, and notes the time. While maintaining a constant heading, the pilot determines that the elapsed time for the CDI to center is 8 minutes. Based on this information, the ETE to the station is (A)8 minutes. (B)16 minutes. (C)24 minutes. - (A)8 minutes Inbound on the 315 radial, a pilot selects the 320 radial, turns 5 degree to the left, and notes the time. While maintaining a constant heading, the pilot notes the time for the CDI to center is 12 minutes. The ETE to the station is (A)10 minutes (B)12 minutes (C)24 minutes. - (B)12 minutes Inbound on the 190 radial, a pilot selects the 195 radial, turns 5 degree to the left, and notes the time. While maintaining a constant heading, the pilot notes the time for the CDI to center is 10 minutes. The ETE to the station is (A)10 minutes. (B)15 minutes. (C)20 minutes. - (A)10 minutes. While maintaining a magnetic heading of 270 degree and a true airspeed of 120 knots, the 360 radial of a VOR is crossed at 1237 and the 350 radial is crossed at 1244. The approximate time and distance to this station are(A)42 minutes and 84 NM. (B)42 minutes and 91 NM. (C)44 minutes and 96 NM. - (A)42 minutes and 84 NM. The relative bearing on an ADF changes from 265 degree to 260 degree in 2 minutes of elapsed time. If the groundspeed is 145 knots, the distance to that station would be (A)26 NM. (B)37 NM. (C)58 NM. - C)58 NM. The ADF indicates a wingtip bearing change of 10 degree in 2 minutes of elapsed time, and the TAS is 160 knots. What is the distance to the station? (A)15 NM. (B)32 NM. (C)36 NM. - (B)32 NM. With a TAS of 115 knots, the relative bearing on an ADF changes from 090 degree to 095 degree in 1.5 minutes of elapsed time. The distance to the station would be (A)12.5 NM. (B)24.5 NM. (C)34.5 NM. - (C)34.5 NM. GIVEN: Wingtip bearing change : 5 degree Time elapsed between bearing change : 5 min True airspeed : 115 kts The distance to the station is (A)36 NM. (B)57.5 NM. (C)115 NM. - (C)115 NM The ADF is tuned to a non-directional radio beacon and the relative bearing changes from 095 degree to 1 00 degree in 1.5 minutes of elapsed time. The time en route to that station would be (A)18 minutes. (B)24 minutes. (C)30 minutes. - (A)18 minutes While maintaining a constant heading, a relative bearing of 100 doubles in 5 minutes. If the true airspeed is 105 knots, the time and distance to the station being used is approximately (A)5 minutes and 8.7 miles. (B)10 minutes and 17 miles. (C)15 minutes and 31.2 miles. - (A)5 minutes and 8.7 miles. GIVEN: Wingtip bearing change : 15 degree , Elapsed time between bearing change : 6 min Rate of fuel consumption : 8.6 gal/hr Calculate the approximate fuel required to fly to the station. (A)3.44 gallons. (B)6.88 gallons. (C)17.84 gallons. - (A)3.44 g