# Aircraft Design MCQ – Air Loads

1 - Question

Load factor is defined as _______________
a) ratio of lift produced to the weight of aircraft
b) aerodynamic efficiency
d) power to weight ratio
Explanation: Load factor is defined as the ratio of lift produced and the weight of the aircraft. For cruising flight lift is equal to weight. Hence, at such flight condition load factor is unity. Aerodynamic efficiency is defined as ratio of lift to drag. It is directly affected by aerodynamics of the aircraft. Thrust loading is ratio of thrust to weight ratio.

2 - Question

Following diagram represents _________ a) maneuver v-n diagram
b) drag polar
d) thrust required graph
Explanation: Above diagram represents a typical Maneuver characteristics. A typical Maneuver V-N diagram is shown in the above diagram. Drag polar is graphical representation of the aircraft drag properties. Typically it is used to show drag variation. Thrust required is used to oppose the drag produced.

3 - Question

An aircraft is cruising with lift of 150N. Find the weight of aircraft.
a) 0.150KN
b) 150KN
c) 123N
d) 15KN
Explanation: At cruise, Weight W = Lift = 150N = 0.150KN.

4 - Question

The dive speed in v-n diagram represents _________
a) maximum dynamic pressure
b) maximum manifold pressure of supercharger
c) hydraulic actuator speed limit
d) rate of climb
Explanation: Maximum dynamic pressure is being represented by the dive speed in a typical V-n diagram. Manifold pressure at intake is almost equal to the atmospheric. Supercharger is used to increase manifold pressure by large amounts. Rage of climb is vertical velocity.

5 - Question

A typical aircraft has level cruise speed of 0.6M. Find the dive speed for given subsonic aircraft.
a) 0.9M
b) 1.9M
c) 330m/s
d) 345m/s
Explanation: Dive speed = cruise speed + 0.5*cruise speed = 0.6 + 0.5*0.6 = 0.9M.

6 - Question

If actual speed of aircraft is 100 m/s and is flying at certain altitude with density ratio of 0.3 then, find equivalent at speed at that altitude.
a) 54.77m/s
b) 125ft/s2
c) 1.2M
d) 1.5M
Explanation: Equivalent airspeed = actual speed * (Density ratio)0.5 = 100*(0.30.5) = 54.77 m/s.

7 - Question

My aircraft is flying at particular altitude. At that altitude ratio of actual airspeed to the equivalent airspeed is 1.4 then, what should be the desire value of density ratio?
a) 0.51
b) 1.89
c) 0.12
d) 0.189
Explanation: Density ratio = (1/ratio of actual airspeed and Equivalent airspeed)2 = (1/1.4)2 = 0.51.

8 - Question

An aircraft is cruising with cruise speed of 250m/s. All of the sudden aircraft experiences in a gust with velocity of 10m/s. determine the change in angle of attack due to this upward gust.
a) ∼2.3°
b) ∼6°
c) ∼5.6°
d) 9°
Explanation: Change in AOA = arctan (gust velocity / cruise speed) = arctan (10/250) = arctan 0.04 = 2.29 ∼ 2.3 deg.

9 - Question

Following diagram represents _________ a) gust V-n diagram
b) maneuver diagram only
c) load factor variation with thrust
d) drag polar
Explanation: A typical gust V-n diagram is shown in the above diagram. Here, in this V-n diagram we are assuming that the aircraft is experiencing gust at 1g. Maneuver V-N diagram is different from the gust diagram. Drag polar is used to relate drag and lift.

10 - Question

Following diagram represents ___________ a) v-n diagram combined of gust and Maneuver
b) v-n diagram landing
c) takeoff speed
d) drag coefficient vs lift
Explanation: Above diagram is illustrating a typical V-n diagram. Above diagram is a typical combined V-n diagram of gust and Maneuver. Drag coefficient vs lift coefficient graph is nothing but the drag polar. Takeoff speed is based on takeoff loads.

11 - Question

When an aircraft flies in air, it experiences _________
a) lift, drag, thrust loads, etc
d) only drag force