8 FLIG. PER. EXAM. PREP.

211 Consult Fig.30 that's in accordance with CAP 696 If the landing mass is 3075 lb and the trip fuel was 40 USG, what was the ZFM if the fuel tanks held 60 gallons of fuel prior to take-off?

212 Fig.30 that's in accordance with CAP 696 What is the maximum ramp mass (MRM), out of hangar?

213 Consult Fig.30 that's in accordance with CAP 696 How far is the main wheel from the aft CG limit?

214 The Maximum Zero Fuel Mass is the maximum permissible mass of the aeroplane:

215 The Maximum Structural Take-off Mass is:

216 The Take-off mass is:

217 The Basic Empty Mass is the mass of the aeroplane:

218 If an aeroplane is at elevation of 660ft and QFE is 1003 hPa, the approximate Pressure Altitude is:

219 The Basic Empty Mass is the:

220 (Refer to Fig.7) What is the maxi¬mum amount of baggage that may be loaded aboard the airplane for the CG to remain within the moment envelope? MASS (LB) MOM/1000 Basic Empty Mass 1,350 51.5 Pilot and front passenger 250 - Rear passengers 400 - Baggage - - Fuel, 27 USG _ _ Oil, 8qt - -0.2

221 (Refer to Fig.7) Calculate the moment of the airplane and determine which category is applicable. MASS (LB) MOM/1000 Basic Empty Mass 1,350 51.5 Pilot and front pass 380 - Rear passengers 96 - Fuel, 38 gal - _ Oil, 8 qt - -0.2

222 (Refer to Fig.7) What is the maxi¬mum amount of fuel that may be aboard the airplane on takeoff if loaded as follows? MASS (LB) MOM/1000 Basic Empty Mass 1,350 51.5 Pilot and front passenger 340 - Rear passengers 310 _ Baggage 45 _ Oil, 8 qt _ _

223 18 (Refer to Fig.7) Determine the moment/1000 with the following data: MASS (LB) MOM/1000 Basic Empty Mass 1,350 51.5 Pilot and front passenger 340 - Fuel (std. tanks) Capacity - Oil, 8 qt - -

224 (Refer to figure 7). Determine the aircraft loaded moment /1000 and the aircraft category. MASS (LB) MOM/1000 Basic Empty mass 1,350 51.5. Pilot and front pass 345 - Fuel 48 gal. 288 - Oil, 8 qt - -

225 Refer to the graph in Fig. 32. Which combination of aircraft gross weight in pounds and C of G position in inches aft of the datum results in safe configuration?

226 Refer to the graph in Fig. 32. Which combination of aircraft gross weight in pounds and C of G position in inches aft of the datum results in safe configuration?

227 Refer to the graph in Fig. 31. What's the maximum amount of fuel with long range tanks that may be aboard the aeroplane on take off, if loaded as follows: MASS MOM/1000 BEM 1800 lb 63.3 Pilot 290 lb 12.6 2nd row seat 260 lb 25.2 Fuels _ _ Bagg. Compartment 100 lb 11.6 Aft Bagg. Area _ 1.6

228 Refer to the graph in Fig. 31. Fill her up with std tanks and determine, if the total moments are within envelope. MASS MOM/1000 BEM 1800 lb 63.3 1st row seat 340 lb 12.6 2nd row seat 340 lb 25.2 Fuels Full capacity _ Bagg. Compartment 104 lb 10.5

229 Use the C of G envelope graph in Fig.2 in order to answer the following question. The combination of weight "mass" and moment arm shown, which is acceptable for flight in the Utility Category is:

230 Pressure Altitude is?

231 Calculate the Centre of Gravity and total weight "mass", given the following conditions. MASS LEVER ARM MOM/1000 BEM 2122 lb 35.76 _ Pilot & Copilot 340 lb 37.0 12.6 Centre row seat _ lb 70.0 23.8 Aft row seat 340 lb _ 34.0 Bagg. Compartment 104 lb 126.9 _ Aft Bagg. Area _ _ _ Fuels (55USG) _ 48.0 17.0

232 Four on board. Investigate using tables in Fig. 33, the total moments (/100) and if within limits?

233 After new equipment installed on aeroplane, as in technical certificate shown in Fig. 34, what's the Basic Empty Mass and total moments(/100)?

234 With reference to airplanes, what is that plane from which the centers of gravities of all masses are referenced?

235 If air density is reduced, full throttle take-off distance will be: