Chapter 6.4 - Takeoff & Landing Performance Flashcards

Question 1

Q

The Takeoff and Landing Performance charts are used to identify what (2)?

Answer

A

Check distance available (with known weight and conditions).
Finding maximum takeoff weight (with known distance and conditions).

Question 2

Q

Describe what happens on Takeoff (5)?

Answer

A

Start at ‘brake release point’.
Aircraft accelerates to lift-off speed.
Aircraft then lift’s off the ground.
Aircraft reaches the 50-foot point.
Takeoff complete.

Question 3

Q

What does TODR stand for?

Answer

A

Takeoff Distance Required.

Question 4

Q

Define TODR?

Answer

A

The distance from the brakes release point to the 50-foot point (plus a safety margin of 15%).

Question 5

Q

True or False. The Takeoff/Landing Weight Charts, are based on flight test data adjusted so they are applicable to an average Aircraft and Pilot?

Question 6

Q

Define the Takeoff Safety Speed?

Answer

A

An Airspeed no less than 20% higher than the power-off Stall Speed.

Question 7

Q

Why is the Takeoff Safety Speed set at 20% higher than the power-off Stall Speed?

Answer

A

It gives the Pilot adequate control in the event of sudden and complete Engine Failure.

Question 8

Q

What does TODA stand for?

Answer

A

Takeoff Distance Available.

Question 9

Q

Define TODA?

Answer

A

The physical length of the Runway available for Takeoff.

Question 10

Q

True of False. If the TODR is equal or greater than the TODA, the Aircraft can takeoff safely?

Answer

A

False. TODA has to be equal or greater than the TODR.

Question 11

Q

What happens if the TODA is less than the TODR?

Answer

A

The Aircraft will have insufficient distance to perform the takeoff.

Question 12

Q

If the TODA is less than the TODR, however the Pilot reduces the weight of the Aircraft so that the TODA is equal to the TODR, what is this new weight called?

Answer

A

Performance-limited maximum takeoff weight.

Question 13

Q

What does ASDA stand for?

Answer

A

Accelerate Stopping Distance Available.

Question 14

Q

Describe what happens on Landing (4)?

Answer

A

Aircraft descends to the 50-foot point.
Aircraft begins Flare whilst slowly descending.
Aircraft will touchdown on Runway surface.
Brakes applied to slow the Aircraft down.

Question 15

Q

What does LDR stand for?

Answer

A

Landing Distance Required.

Question 16

Q

Define LDR?

Answer

A

The distance from the 50-foot point to the point where the Aircraft comes to a complete stop (plus a safety margin of 15%).

Question 17

Q

Define the Approach/Target Threshold Speed?

Answer

A

An Airspeed no less than 30% higher than the power-off Stall Speed.

Question 18

Q

What does LDA stand for?

Answer

A

Landing Distance Available.

Question 19

Q

Define LDA?

Answer

A

The physical length of the Runway available for Landing.

Question 20

Q

True or False. If the LDA is equal to or greater than the LDR, the Aircraft can land safely?

Question 21

Q

What happens if the LDA is less than the LDR?

Answer

A

The Aircraft will have insufficient distance to land.

Question 22

Q

True or False. Is it possible to reduce weight for landing, just like Takeoff?

Answer

A

False. If the LDA is less than the LDA, a landing should not be performed.

Question 23

Q

In takeoff configuration, a single-Engine Aircraft must equal or exceed a climb angle of what gradient and angle?

Answer

A

6% (gradient).

- 3.6° (angle).

Question 24

Q

When would a Climb Weight Limit normally be used for Takeoff?

Answer

A

From high-elevation aerodromes particularly on very hot days.

Question 25

Q

In landing configuration, a single-Engine Aircraft must have the ability to climb at what gradient and angle?

Answer

A

3.2% (gradient).

- 1.92° (angle).

Question 26

Q

When would a Climb Weight Limit normally be used for Landing?

Answer

A

High-elevation aerodromes.

Question 27

Q

Name six factors affecting Takeoff and Landings?

Answer

A

Mass (Weight).
Air Density.
Wind.
Surface of Runway.
Slope of Runway.
Flaps.

Question 28

Q

An increase in density height will decrease the Aircraft’s performance and also do what to takeoff distance required?

Answer

A

Increase.

Question 29

Q

An increase in density height will decrease the Aircraft’s performance and also do what to landing distance required?

Answer

A

Increase.

Question 30

Q

An increase in density height will decrease the Aircraft’s performance and also do what to takeoff and landing climbs performance?

Answer

A

Decrease.

Question 31

Q

Name four factors affecting Air Density?

Answer

A

Pressure Height.
QNH.
Elevation.
Air Temperature.

Question 32

Q

What is the optimum runway surface condition?

Answer

A

Sealed Runway.

Question 33

Q

True or False. Weather can affect takeoff and landing performances?

Question 34

Q

How can a slope affect takeoff performance (2)?

Answer

A

Uphill slope increases the takeoff distance required.

- Downhill slope decreases the takeoff distance required.

Question 35

Q

How can a slope affect takeoff performance (2)?

Answer

A

Uphill slope decreases the landing distance required.

- Downhill slope increases the landing distance required.

Question 36

Q

How can a headwind component affect takeoff and landing performance?

Answer

A

Decreases distance required.

Question 37

Q

How can a tailwind component affect takeoff and landing performance?

Answer

A

Increases distance required.

Question 38

Q

How does gross weight affect takeoff distance required (2)?

Answer

A

Increasing the gross weight will increase the TODR.

- Decreasing the gross weight will decrease the TODR.

Question 39

Q

How does gross weight affect takeoff and landing climbs (2)?

Answer

A

Decreasing the gross weight will increase takeoff and landing climbs.
Increasing the gross weight will decrease takeoff and landing climbs.

Question 40

Q

Name six other factors affecting takeoff and landing performances?

Answer

A

Takeoff/Approach Speeds.
Pilot Technique.
Engine Power Output.
Ground Effect.
Windshear.
Frost.

Question 41

Q

True or False. An increase in takeoff/approach speed will increase the distance required?

Question 42

Q

True or False. A decrease in takeoff/approach speed will decrease the distance required?

Question 43

Q

True or False. Any factor which reduces the power out of an Engine will increase the takeoff distance required?

Question 44

Q

True or False. It is important to establish early whether or not the Engine is producing its normal power output?

Question 45

Q

When would ground effect affect an Aircraft’s performance (takeoff/landing)?

Question 46

Q

What is Windshear?

Answer

A

A change of wind in speed and direction.

Question 47

Q

Increasing headwind will have what effect to the takeoff and landing climb performance?

Answer

A

Increasing performance.

Question 48

Q

Decreasing headwind will have what effect to the takeoff and landing climb performance?

Answer

A

Decreasing performance.

Question 49

Q

Increasing tailwind will have what effect to the takeoff and landing climb performance?

Answer

A

Decreasing performance.

Question 50

Q

Decreasing tailwind will have what effect to the takeoff and landing climb performance?

Answer

A

Increasing performance.

Question 51

Q

Frost on the upper surface of the Wings affects the Aircraft’s performance by reducing what?

Answer

A

The amount of lift being generated.

Question 52

Q

The maximum weight of an Aircraft that can sagely takeoff and land is determined by what factors (2)?

Answer

A

Structural Strength.

- Performance.

Question 53

Q

What does GW stand for?

Answer

A

Gross Weight.

Question 54

Q

Define GW?

Answer

A

The total weight of an Aircraft at any particular instant.

Question 55

Q

What does TOWSL stand for?

Answer

A

Takeoff Weight Structural Limit.

Question 56

Q

Define TOWSL?

Answer

A

Maximum gross weight where an Aircraft can commence a takeoff by the structural strength.

Question 57

Q

What does TOWPL stand for?

Answer

A

Takeoff Weight Performance Limit.

Question 58

Q

Define TOWPL?

Answer

A

Maximum gross weight where an Aircraft can commence a takeoff by its performance.

Question 59

Q

What does LDWSL stand for?

Answer

A

Landing Weight Structural Limit.

Question 60

Q

Define LDWSL?

Answer

A

Maximum gross weight where an Aircraft can commence a landing by the structural strength.

Question 61

Q

What does the LDWPL stand for?

Answer

A

Landing Weight Performance Limit.

Question 62

Q

Define LDWPL?

Answer

A

Maximum gross weight where an Aircraft can commence a landing by its performance.

Question 63

Q

What does MLDW stand for?

Answer

A

Maximum Landing Weight.

Question 64

Q

Define MLDW?

Answer

A

The lesser of the Landing Weight Structural Limit and Landing Weight Performance Limit.

Answer 57

A

Maximum Takeoff Weight.

Answer 58

A

The lesser of the Takeoff Weight Structural Limit and Takeoff Weight Performance Limit.

Answer 59

A

Maximum allowable weight of an Aircraft prior to start-up.

Answer 60

A

Zero Fuel Weight.

Answer 61

A

Gross weight of an Aircraft with no fuel.

Answer 62

A

Runway Length.

- Takeoff-climb Performance.

Answer 63

A

Runway Length.

- Landing-climb Performance.

Answer 64

A

Maximum takeoff weight for a particular takeoff distance available.
Takeoff distance required for a particular gross weight at takeoff.

Answer 65

A

Power (to be used).
Flap Setting.
Takeoff Safety Speed.

Answer 66

A

2% (upslope).

- 6% (downslope).

Answer 67

A

Maximum landing weight for a particular landing distance available.
Landing distance required for a particular gross weight at landing.

Answer 68

A

2% (downslope).

- 6% (upslope).

Answer 69

A

Density Height.

- Marking Pressure Height with Temperature.

Answer 70

A

Takeoff Distance.

- Drawing a Vertical Line.

Answer 71

A

Takeoff Weight.

- Marking Takeoff Weight with Wind Component.

Answer 72

A

Slope.

- Drawing a Horizontal Line to meet Slope percentage.

Answer 73

A

Runway Surface.

- Drawing a Vertical Line.

Answer 74

A

Takeoff Distance Required.

- By drawing a Horizontal Line which meets the Horizontal Line from the Airfield Pressure Height Chart.

Answer 75

A

Density Height.

- Marking Pressure Height with Temperature.

Answer 76

A

Drawing a Vertical Line to meet the Takeoff Distance Available.

Answer 77

A

Draw a Horizontal Line to meet the Runway Surface.

Answer 78

A

Draw a line Parallel to the Runway Surface.

Answer 79

A

Draw a Horizontal Line which meets the Runway Slope.

Answer 80

A

Draw a Vertical Line down to meet the Wind Component.

- Then draw a Horizontal Line to find the Takeoff Weight.

Answer 81

A

Landing distance required for existing conditions.

- Maximum Landing Weight for the landing distance required (where climb weight limit applies).

Answer 82

A

Density Height.
Marking Pressure Height with Temperature.
Draw a Horizontal Line across to meet the Climb Weight Limit on Landing Weight Chart.

Answer 83

A

Landing Distance.

- Drawing a Vertical Line.

Answer 84

A

Marking Wind Component with Runway Slope.

- Drawing a Horizontal Line to meet Vertical Line on Landing Distance Required Chart.

Answer 85

A

False. Flap Settings on charts should be used for Takeoffs.

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Chapter 6.4 - Takeoff & Landing Performance Flashcards

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