PPL Oral - Aerodynamics & Performance

Question 1

What are the 6 main forces acting in a turn?

Answer 1

1. Lift
   * Keeps the aircraft in the air, but is reduced, due to the added Horizontal lift component
2. Horizontal Component of Lift (Centripital force)
   * Turns the aircraft
   * causes the aircraft to descend because lift upward lift is now split into a horizontal component
3. Total Lift
   * The Sum of the lift holding the airplane in the air, and the Horizontal lift causing the turn
4. Weight
   * The force of the aircrafts weight that counteracts lift
5. Centrifugal Force
   * Acts equal and opposite to the Horizontal lift
6. Resultant Load Factor
   * A result of Weght and Centrifugal Force
   * Increases weight
   * Increases stall speed

Question 2

Why do we need to apply back pressure when in a turn?

Answer 2

Because we have less vertical Lift keeping the airplane in the air due to part of the total lift now acting horizontally.

Question 3

Why do we need rudder in a turn?

Answer 3

Because the upward wing creates more drag, pulling the nose above the horizon (A Slip). Deflect rudder slightly into the turn to combat this.

This is called Adverse Yaw

Question 4

Explain Overbanking tendency

Answer 4

1. In a turn, the outside wing is traveling slightly faster than the inside wing, thus, the outside wing will produce more lift than the inside wing and continue to bank.
2. Combat this by slightly pushing the stick in the opposite direction of the turn until the turn stabilizes.
3. Overbanking tendency is especially dangerous at low airspeeds, like in the traffic pattern, as our stall speed will increase as the bank increases the load factor.

Most prevelant durring Steep turns

Question 5

What is known as Slipping?

Answer 5

When the nose of the aircraft is yawing towards the outside of a turn.

Question 6

What is Skidding?

Answer 6

When the nose of the airplane is yawed towards the inside of the turn.
Usually due to excess rudder usage.

NEVER use yaw (rudder) to tighten a turn!

Question 7

What is more dangerous, a Skid or a Slip?

Answer 7

A skid is more dangerous especially at low speeds as it will likely lead to an accelerated stall into a spin.

NEVER use the rudder to tighten a turn!

Question 8

What are the two basic types of drag?

Answer 8

Parasitic and Induced drag

Question 9

What are the 3 types of Parasitic Drag?

Answer 9

• Form drag
  Drag generated by the different shapes of objects
• Interference Drag
  Drag generated by the intersection of airstream currents a cross a meeting point between two objects.
• Skin Friction Drag
  Drag generated by tiny imperfections in the surface of an object

Question 10

What is Parasitic Drag?

Answer 10

Drag that is produced by an object as it moves through the air

(not associated with the product lift?

3 Types: Form, Interference, & Skin Friction

Question 11

What is Induced Drag

Answer 11

Drag that is generated as a byproduct of Lift
* The Wingtip Vortices and Downwash angle downwards behind the wing, this changes the angle of the relative wind.
* Since Lift always acts perpendicular to the relative wind, this causes the Lift Vector to have a reward component to it, reducing lift.

Question 12

What are Wingtip Vortices?

Answer 12

Areas of turbulent air behind the wingtips of aircraft, generated by Induced Drag
* they form because this is the area where the High pressure below the wing and the Low pressure above the wing mix, and create a vortex

Question 13

When are Wingtip Vortices greatest?

Answer 13

When the generating aircraft is heavy, clean, and slow.

Question 14

How should one avoid Wingtip Vortices or Wake Turbulence?

Answer 14

• Avoid flying through another aircrafts flight path
• Avoid following within 1,000ft of another aircrafts flight path
• When taking off behind and aircraft, rotate prior to its rotation point
• Land above the aircrafts flight path and touchdown beyond their TD point.
• Watch out for wake turbulence when using parallel runways.

Question 15

What are the Four Forces of flight and how are they related?

Answer 15

1. Lift
   * Opposes Weight
2. Weight
   * Opposes Lift
3. Thrust
   * Opposes Drag
4. Drag
   * Opposes Thrust

Question 16

What is Ground Effect?

Answer 16

The tendency of the aircraft to remain or become airborne very close to the ground.
* Occurs due to Wingtip Vortices and Wing Downwash not being able to fully form, they push on the ground createing a cushion of air that keeps the airplane airborne.
* This is because Induced drag is greatly reduced due to the Vortices and Downwash not being able to form

Question 17

Why should you be wary of Ground Effect when landing?

Answer 17

Because the aircraft will want to stay airborne too long, especially if your speed is too high. This will increase your float time.

-Combat this by maintaining appropriate speed and reducing power prior to landing.

Question 18

Why should you be wary of Ground Effect when taking off?

Answer 18

Because Ground Effect can allow the aircraft to become airborne before it has the speed/lift required to maintain a climb.

Question 19

What are the 3 Axis of an aircraft and what are their associated control surfaces?

Answer 19

• Longitudinal, Roll = Aileron
• Lateral, Pitch = Elevator
• Vertical, Yaw = Rudder

Question 20

What is Positive Static Stability?

Answer 20

The INITIAL tendency for the aircraft to return to its original attitude after being disturbed about one of its axes, due to its inherent design characteristics.

Question 21

What are the 4 Left Turning Tendencies?

Answer 21

1. Torque
2. Spiraling Slip Stream
3. P-Factor
4. Gyroscopic Precession

Question 22

What is Torque that causes a left turn?

Answer 22

The clockwise turning engine produces a reactive force causing the aircraft to ROLL to the left.

Newtons 3rd Law
-For every action there is an equal but opposite reaction

Question 23

What is Spiraling Slip Stream?

Answer 23

The prop wash from the propeller spirals around the fuselage where it eventually hits the left side of the vertical stabilizer, causing the aircraft to yaw to the left.

Most noticeable at low airspeeds.

Question 24

What is Gyroscopic Precession?

Answer 24

A force applied to a spinning disc will be felt 90 degrees in the direction and plane of rotation.

This occurs whenever the aircraft pitches up or down. Causing a left/right turning tendency due to the clockwise turning propeller blade.

This is most prevalent in conventional (tail wheel) aircraft on take off.

This can also create a RIGHT turning tendency

Question 25

P-Factor

Answer 25

1. Due to the designed blade angle of the propeller, the descending blade on the right takes a larger “bite” (AOA) of air than the ascending blade on the left resulting in the creation of asymmetrical thrust and a left turning tendency.
2. Most noticeable at high AOA and high airspeed.

Question 26

What is a Stall?

Answer 26

When the airfoil is no longer creating enough lift to support the weight of the aircraft. Exceeding the critical AOA

Question 27

What is happening during a stall?

Answer 27

• The airflow is separated from the wing, disrupting the creation of lift. This happens when the relative wind is no longer able to fully wrap itself along the surface of the wind due to the critical AOA being exceeded.

Question 28

Why does the nose usually drop in a Stall?

Answer 28

The CL being aft of the CG forces the nose of the airplane down. (Safety feature).

Question 29

What are some aircraft design characteristics that can improve Stall recovery?

Answer 29

1. The CL being aft of the CG forces the nose down in a stall.
2. The aircraft stalling at the wing root first. Root has a higher AOA than the tip. Stall strips installed on the leading edge near the root.
3. Ensuring we have a forwardly placed CG during W&B checks.

Question 30

What kind of conditions contribute to adverse Stall characteristics

Answer 30

• Turns = Load factor is increased, requiring a higher AOA to maintain enough lift to support the extra weight due to centrifugal
  force in a turn.
• Wing Icing = It only takes .8 mm of ice to decrease lift and increase drag by 25%. This increases the AOA we need to maintain lift.
  Getting us closer to critical AOA

Question 31

Why is AOA a more reliable metric than Stall speed to measure how close you are to stalling the aircraft

Answer 31

Because published stall speeds are dependent on specific parameters:

• Unaccelerated flight (1G load factor)
• Coordinated flight
• At a specific weight (usually max gross weight)

Question 32

Why don’t we use Aileron in a Spin?

Answer 32

1. Aileron will be ineffective due to lack of air flowing properly over the wing to produce Lift
2. It would increase drag and aggravate the spin further.

Question 33

Why do wings fly?

Answer 33

1. The curvature of the wing causes the air at the top to speed up, resulting in a DECREASE in pressure ABOVE the wing, this creates higher pressure below the wing, pushing the wing up and creating LIFT.

Why does the air speed up?
2. Centrifugal force

Question 34

What are the two scientific principles that allow us to fly?

Answer 34

1. Bernoulli’s principle - An Increase in the speed of a fluid (air) will also result in a DECREASE in pressure (as a fluid speeds up, its pressure decreases)
2. Newtons 3rd Law of Motion - For every action there is an equal and opposite reaction

Question 35

What are the conditions for necessary for high Density Altitude?

Answer 35

• High elevations
• Higher than standard temperature
• Lower than Standard atmospheric pressure
• High humidity (moist air. Decreases air density)
  ..Or a combination of these factors

Question 36

What kind of things can effect stall speed?

Answer 36

AC 62-67C

1. Weight
2. CG
3. Bank angle (Load Factor)
4. Turbulence
5. Wing Contamination (Ice, snow, frost)

Question 37

Why is it wise to fly a higher than normal approach speed during moderate to severe turbulence or strong crosswinds?

Answer 37

AC 62-67C

Because drastic changes in the Relative Wind to the airfoil can increase stall speed or cause the aircraft to exceed Critical AOA.

Question 38

What is the Glide Ratio of the DA 40 NG?

Answer 38

Glide ratio is 9.4

For every 1,000FT of altitude lost, 1.54 NM distance can be gained

Question 39

What is Newtons 1st Law?

Answer 39

An object at rest or in motion will remain so until acted upon by another force
* For example: An aircraft must overcome its forward Inertia in order to turn, it does this by producing horizontal lift.

This is known as INERTIA: Newtons Inertia Law

Question 40

What is Newtons 2nd law?

Answer 40

Every action has an equal & opposite reaction
* For example: An aircraft producing Horizontal lift in a turn, will also produce Centrifugal force in the opposite direction of the turn.

Newtons Reactioinary Law

Question 41

What is: Mean Wing Camber?

Answer 41

Mean Wing Camber is an imaginary line that is equadistant from the upper and lower portion of an airfoil, following the curve of the wing, and meeting the Chord line at the leading and trailing edges.

In a turn, the outside wing produces more lift because the downward aileron INCREASES the Camber of the wing, in addition to moving slightly faster than the inside wing.

Question 42

In a turn, why does the upward, outside wing create more lift than the downward, inside wing?

Answer 42

1. In a turn, the outside wing produces more lift because the downward aileron INCREASES the Camber of the wing.
2. In addition, it also moves slightly faster (more lift) than the inside wing.

Question 43

What are the two main categories of aircraft stability?

Answer 43

1. Static Stability
2. Dynamic Stability

https://www.youtube.com/watch?v=Q2DOus05Qso&list=WL&index=16

Question 44

What is Static Aircraft Stability?

Answer 44

How an aircraft initially responds to a distrubence placed upon one of its axis (yaw, pitch, roll)

https://www.youtube.com/watch?v=Q2DOus05Qso&list=WL&index=16

Question 45

What is Dynamic Aircraft Stablity

Answer 45

How an aircraft responds over time to a disturbance placed upon one of its axis (yaw, pitch, roll)

https://www.youtube.com/watch?v=Q2DOus05Qso&list=WL&index=16

Question 46

What kind of Aircraft Stability are most training aircraft designed to have?

Answer 46

Positive Dynamic Stability.
* The tendency for the aircraft to return to its original state after it has been distrubed.

https://www.youtube.com/watch?v=Q2DOus05Qso&list=WL&index=16

Question 47

Explain what Positive, Neutral, and Negative stability are.

Answer 47

Positive
* The aircraft will return to level flight when distrubed (static), or will climb back up to its original altitude and level off after a few oscilations (dynamic)

Neutral
* The aircraft will maintain the pitch up or pitch down attitde after being distrubed (statoc), or maintain equal oscilations over time (dynamic)

Negative
* The aircraft will continue to increase the nose down or nose up pitch of the original disturbance (static), or will have increasingly exaggerated oscillations (dynamic)

https://www.youtube.com/watch?v=Q2DOus05Qso&list=WL&index=16

The example in the answer is given in the form of a disturbance in Pitch, but a distrubance on any axis could be used to explain.

Question 48

Which loading scenario is worse, a more Forward CG, or an Aft CG?

Answer 48

An Aft CG is preferable because:
- Much more fuel efficient
- Lower stall speed

Question 49

What are the characteristics of a Forward CG and why?

Answer 49

Pros:
- More Longitudinal stability
- Good stall recovery

Cons:
- Higher Stall speed (higher AOA to fly straight and level because tail-down force adds weight)
- Less fuel efficient (more drag due to higher AOA and large tail-down force)
- Longer T/O roll
- Higher Vr speed
- Difficult to flare the landing

Question 50

What are the characteristics of an Aft CG and why?

Answer 50

Pros:
- Much more fuel efficient (less drag)
- Lower Stall Speed (lower AOA)
- Shorter T/O roll
- Lower Vr speed

Cons:
- Less Longitudinal stability
- Bad stall recovery

Question 51

Why is a higher AOA required when an aircraft is loaded with a more Forward CG?

Answer 51

• This is because more tail downforce is needed to counteract the nose down tendency of a forwardly loaded CG, the extra tail downforce essentially adds ‘weight’ to the aircraft which requires more Lift to be produced (higher AOA) to maintain straight and level flight.

PHAK

Question 52

What aircraft design charactoristics are utilized to increase Longitudinal Stability (Pitch Stability)?

Answer 52

1. The Center of Gravity is placed forward of the Center of Lift.
   * This creates a nose down tendancy which aids in stall recovery
2. The Horizontal Stabalizer is designed as an inverted wing to create Tail-Down Force.
   * This helps keep the nose up and will balance out the nose heavy aircraft design.

https://www.youtube.com/watch?v=BWx8m4G0nEc&list=WL&index=14

Question 53

What aircraft design charactoristics are utilized to increase Lateral Stability (Roll stability)?

Answer 53

1. Dihedral - The upward tilted angle of the wings relative to the aircraft being viewed from head on
   * When a wingtip is lowered (roll, without yaw), the aircraft will enter a sideslip, and due to the relative wind changing the way the air flows over both wings, the lower wing is now producing more lift and will begin to raise itself back to level flight.

https://www.youtube.com/watch?v=BWx8m4G0nEc&list=WL&index=14

Question 54

What is Dihedral?

Answer 54

Dihedral - The upward tilted angle of the wings relative to the aircraft being viewed from head on