CHAPTER 8 HIGH LIFT DEVICES (ATPL OXFORD)

With the flaps lowered, the stalling speed will:

a) increase.

b) decrease.

c) increase, but occur at a higher angle of attack.

d) remain the same.

b) decrease.

When flaps are lowered the stalling angle of attack of the wing:

a) remains the same, but C L max increases.

b) increases and C L max increases.

c) decreases, but C L max increases.

d) decreases, but C L max remains the same.

c) decreases, but C L max increases.

With full flap, the maximum Lift/drag ratio:

a) increases and the stalling angle increases

b) decreases and the stalling speed decreases

c) remains the same and the stalling angle remains the same

d) remains the same and the stalling angle decreases

b) decreases and the stalling speed decreases

When a leading edge slot is opened, the stalling speed will:

a) increase

b) decrease

c) remain the same but will occur at a higher angle of attack.

d) remain the same but will occur at a lower angle of attack.

b) decrease

The purpose of a leading edge droop is:

a) to give a more cambered section for high speed flight.

b) to increase the wing area for take‑off and landing.

c) to increase wing camber, and delay separation of the airflow when trailing edge flaps are lowered.

d) to decrease the lift during the landing run.

c) to increase wing camber, and delay separation of the airflow when trailing edge flaps are lowered.

Lowering flaps sometimes produces a pitch moment change due to:

a) decrease of the angle of incidence.

b) movement of the centre of pressure.

c) movement of the centre of gravity.

d) increased angle of attack of the tailplane.

b) movement of the centre of pressure.

Which type of flap would give the greatest change in pitching moment?

a) Split

b) Plain

c) Fowler

d) Plain slotted

c) Fowler

If flaps are lowered during the take‑off run:

a) the lift would not change until the aircraft is airborne.

b) the lift would increase when the flaps are lowered.

c) the lift would decrease.

d) the acceleration would increase.

b) the lift would increase when the flaps are lowered.

A split flap is:

a) a flap divided into sections which open to form slots through the flap.

b) a flap manufactured in several sections to allow for wing flexing.

c) a flap which can move up or down from the neutral position.

d) a flap where the upper surface contour of the wing trailing edge is fixed and only the lower surface contour is altered when the flaps are lowered

d) a flap where the upper surface contour of the wing trailing edge is fixed and only the lower surface contour is altered when the flaps are lowered

Lowering the flaps during a landing approach:

a) increases the angle of descent without increasing the airspeed

b) decreases the angle of descent without increasing power

c) eliminates floating

d) permits approaches at a higher indicated airspeed

a) increases the angle of descent without increasing the airspeed

If the flaps are lowered in flight, with the airspeed kept constant, to maintain level flight the angle of attack:

a) must be reduced.

b) must be increased.

c) must be kept constant but power must be increased.

d) must be kept constant and power required will be constant.

a) must be reduced.

If a landing is to be made without flaps the landing speed must be:

a) reduced.

b) increased.

c) the same as for a landing with flaps.

d) the same as for a landing with flaps but with a steeper approach.

b) increased.

11. When flaps are lowered the span wise flow on the upper surface of the wing:

a) does not change.

b) increase towards the tip.

c) increases towards the root.

d) increases in speed but has no change of direction.

c) increases towards the root.