HFH Ch7 Helicopter Performance Flashcards

You may prefer our related Brainscape-certified flashcards:
1
Q

What are the 4 major factors that affect a helicopter’s performance?

A

Density altitude, weight, wind, and surface condition (pavement, water, grass, snow)

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2
Q

There’s approximately a _____ % reduction in performance in high humid conditions compared to dry air at the same altitude & temperature.

A

3-4%- Expect a decrease in hovering & takeoff performance- It can be the cause of a mishap when already operating at the limits of the helicopter

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3
Q

In some helicopters during high altitude operations, the maximum antitorque produced by the tail rotor during a hover may not be sufficient to overcome torque even if the _____ is within limits.

A

Gross weight

At higher gross weights, the increased power required to hover produces more torque, requiring more antitorque from the tail rotor.

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4
Q

_____ occurs whether the relative airflow is caused by the helicopter movement or by the wind.

A

Translational lift

This is the improved rotor efficiency resulting from directional flight.

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5
Q

_____ are an important consideration and the most desirable as they contribute to the greatest increase in performance.

A

Headwinds
As wind speed increases, translational lift increases, resulting in less power required

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6
Q

Strong crosswinds & tailwinds may require the use of more _____ to maintain directional control.

A

Tail rotor thrust

Increased tail rotor thrust absorbs power from the engine, resulting in less power available to the main rotor to produce lift

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7
Q

When taking off into a headwind, _____ is achieved earlier, resulting in more lift & a steeper climb angle.

A

Effective translational lift

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8
Q

When taking off with a tailwind, more _____ is required to accelerate through translational lift.

A

Distance

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9
Q

Dead man’s curve refers to what?

A

The shaded areas on the Height/Weight (H/W) diagram that don’t allow sufficient time to execute a final flare & recovery during autorotation. Somewhat analogous to base jumping from too low a height- you need to be high enough for your parachute to deploy, fill with air, & slow your decent.

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10
Q

The H/W diagram defines the height & airspeed combination that will allow a _____.

A

Safe landing in the result of engine failure

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11
Q

The time required, and therefore, altitude necessary to attain a steady autorotative descent, is dependent on the _____ of the helicopter and the _____.

A

Weight; density altitude

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12
Q

_____ occurs whether the relative airflow is caused by the helicopter movement or by the wind.

A

Translational lift

This is the improved rotor efficiency resulting from directional flight

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13
Q

What are the four forces acting on the helicopter?

A

Thrust, Drag, Weight, Lift

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14
Q

What are the three types of drag?

A

Profile drag, induced drag, parasite drag - PIP

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15
Q

What is profile drag?

A

Frictional resistance of the blades passing through the air

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16
Q

What is induced drag?

A

The component of lift that is acting in a rearward direction generated by the airflow around the rotor blade as it creates lift.

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17
Q

What is parasite drag?

A

Drag caused by the non-lifting components of the helicopter such as the cabin, rotor mast, tail, and landing gear.

18
Q

What is induced flow?

A

The component of air flowing down through the rotor system that is created by the production of lift

19
Q

What is the resultant relative wind?

A

Relative wind modified by induced flow

20
Q

What is the angle of attack?

A

Angle measured between the resultant relative wind and the chord line of the rotor.

21
Q

What is the angle of incidence?

A

The angle between the chord line of a blade and the rotor hub. Also known as blade pitch angle.

22
Q

Is the angle of incidence mechanical or aerodynamic?

A

Mechanical

23
Q

Is the angle of attack aerodynamic or mechanical?

A

Aerodynamic

24
Q

What changes the angle of incidence?

A

Collective input and cyclic feathering

25
Q

What is the translating tendency?

A

The tendency of the helicopter to move in the direction of the tail rotor thrust in hovering flight.

26
Q

How is the translating tendency counteracted?

A

One or more of the following is used:
* Main transmission is mounted at slight angle to the left
* Flight controls can be rigged so the rotor disk is tilted to the left slightly when the cyclic is centered
* Transmission is mounted so the rotor shaft is vertical with respect to the fuselage, the helicopter “hangs” left skid low in the hover
* The fuselage will also be tilted when the tail rotor is below the main rotor disk and supplying antitorque thrust. The fuselage tilt is caused by the imperfect balance of the tail rotor thrust against the main rotor torque in the same plane. The helicopter tilts down due to two separate forces, the main rotor disk tilt to neutralize translating tendency and the lower tail rotor thrust below the plane of the torque action
* In forward flight, the tail rotor continues to push to the right, and the helicopter makes a small angle with the wind when the rotors are level and the slip ball is in the middle. this is called inherent sideslip

HFH 2-15

27
Q

What is the danger of rearward flight?

A

The horizontal stabilizer can press the tail downward resulting in tail strike if the helicopter is moved into the wind.

28
Q

What is coning?

A

An upward sweep of blade angle as a result of lift outperforming centrifugal force

29
Q

What is the danger if the rotor RPM is allowed to go too low?

A

If rotor RPM continues to fall, the rotor will eventually stall, failing to produce enough lift to support the helicopter and causing a rapid descent. The resulting AOA becomes so high that even full down collective will not restore normal airflow

30
Q

What is the Coriolis Effect?

A

Also known as the Law of Conservation of Angular Momentum. Rotating body continues to rotate with the same rotational velocity until some external force is applied to change the speed of the rotation.

31
Q

What is gyroscopic precession?

A

The resultant action or deflection of a spinning object when a force is applied to this object which occurs approximately 90 degrees in the direction of rotation from the point where the force is applied.

32
Q

What is dissymmetry of lift?

A

The differential (unequal) lift between advancing and retreating halves of the rotor disk caused by the different wind flow velocity across each half

33
Q

What is retreating blade stall?

A

When the critical angle of attack is reached on the retreating blade.

34
Q

What is evidence of retreating blade stall?

A

Nose pitch up, vibration, and a rolling tendency usually to the left.

35
Q

What is translational lift?

A

Improved rotor efficiency resulting from directional flight

36
Q

What is effective translational lift (ETL)?

A

Between 16 and 24 kts, the rotor system completely outruns the recirculation of old vortices and begins to work in relatively undisturbed air. Flow through the air is more horizontal

37
Q

What is the transverse flow effect?

A

As the helicopter accelerates in forward flight, induced flow drops to near zero at the forward disk area and increases at the aft disk area. The result is a tendency for the helicopter to roll slightly to the right as it accelerates through approximately 20 kts.

38
Q

What effect does wind have on aircraft performance?

A

If a helicopter is taking off into the wind, the helicopter will reach ETL sooner; if taking off downwind ETL will be reached later, causing a longer ground run.

38
Q

How does air density affect helicopter performance?

A
  • efficiency of the rotor blades to create lift
  • power output of the engine
  • drag produced by increased AOA
39
Q

What is MCP?

A

Max Continuous Power

40
Q

What is a “5 minute takeoff rating”

A

Rated takeoff power, with respect to reciprocating, turboprop, and turboshaft engines, means the approved horsepower that is developed statically under standard sea level conditions, within the engine operating limitations established under part 33, and limited in use to periods of not over 5 minutes.

41
Q

What is the correct procedure after pulling the maximum rated takeoff power for 5 minutes?

A

Lower power to MCP, monitor engine instruments for higher than normal temps or pressures.