Operation Of Systems - D: Gyroscopic Flight Instruments Flashcards

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1
Q

What instruments contain gyroscopes?

A

a. the turn coordinator
b. the heading indicator (directional gyro)
c. the attitude indicator (artificial horizon)

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2
Q

What are the two fundamental properties of a gyroscope?

A

Rigidity in space—a gyroscope remains in a fixed position in the plane in which it is spinning.

Precession—the tilting or turning of a gyro in response to a deflective force. The reaction to this force does not occur at the point where it was applied; rather, it occurs at a point that is 90° later in the direction of rotation. The rate at which the gyro precesses is inversely proportional to the speed of the rotor and proportional to the deflective force.

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3
Q

What are the various power sources that may be used to power the gyroscopic instruments in an airplane?

A

In some airplanes, all the gyros are vacuum, pressure, or electrically operated

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4
Q

How does the vacuum system operate?

A

An engine-driven vacuum pump provides suction which pulls air from the instrument case. Normal pressure entering the case is directed against rotor vanes to turn the rotor (gyro) at high speed, much like a water wheel or turbine operates. Air is drawn into the instrument through a filter from the cockpit and eventually vented outside. Vacuum values vary between manufacturers (usually between 4.5 and 5.5” Hg.), but provide rotor speeds from 8,000 to 18,000 RPM.

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5
Q

How does the attitude indicator work?

A

The gyro in the attitude indicator is mounted on a horizontal plane and depends upon rigidity in space for its operation. The horizon bar represents the true horizon. This bar is fixed to the gyro and remains in a horizontal plane as the airplane is pitched or banked about its lateral or longitudinal axis, indicating the attitude of the airplane relative to the true horizon.

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6
Q

What are the limitations of an attitude indicator?

A

The pitch and bank limits depend upon the make and model of the instrument. Limits in the banking plane are usually from 100 degrees to 110 degrees, and the pitch limits are usually from 60 to 70 degrees. If either limit is exceeded, the instrument will tumble or spill and will give incorrect indications until reset. A number of modern attitude indicators will not tumble.

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7
Q

What are the errors of the attitude indicator?

A

Attitude indicators are free from most errors, but depending upon the speed with which the erection system functions, there may be a slight nose-up indication during a rapid acceleration and a nose-down indication during a rapid deceleration. There is also a possibility of a small bank angle and pitch error after a 180° turn. These inherent errors are small and correct themselves within a minute or so after returning to straight-and-level flight.

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8
Q

How does the heading indicator operate?

A

The operation of the heading indicator uses the principle of rigidity in space. The rotor turns in a vertical plane, and the compass card is fixed to the rotor. Since the rotor remains rigid in space, the points on the card hold the same position in space relative to the vertical plane. As the instrument case and the airplane revolve around the vertical axis, the card provides clear and accurate heading information.

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9
Q

What are the limitations of the heading indicator?

A

The bank and pitch limits of the heading indicator vary with the particular design and make of instrument. On some heading indicators found in light airplanes, the limits are approximately 55 degrees of pitch and 55 degrees of bank. When either of these attitude limits is exceeded, the instrument “tumbles” or “spills” and no longer gives the correct indication until reset. After spilling, it may be reset with the caging knob. Many of the modern instruments used are designed in such a manner that they will not tumble.

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10
Q

What error is the heading indicator subject to?

A

Because of precession, caused chiefly by friction, the heading indicator will creep or drift from a heading to which it is set. Among other factors, the amount of drift depends largely upon the condition of the instrument. The heading indicator may indicate as much as 15° error per every hour of operation.

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11
Q

What information does the turn coordinator provide?

A

The turn part of the instrument uses precession to indicate direction and approximate rate of turn. A gyro reacts by trying to move in reaction to the force applied thus moving the needle or miniature aircraft in proportion to the rate of turn. The slip/skid indicator is a liquid-filled tube with a ball that reacts to centrifugal force and gravity.

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12
Q

What information does the turn coordinator provide?

A

The turn coordinator shows the yaw and roll of the aircraft around the vertical and longitudinal axes.

The miniature airplane will indicate direction of the turn as well as rate of turn. When aligned with the turn index, it represents a standard rate of turn of 3° per second. The inclinometer of the turn coordinator indicates the coordination of aileron and rudder. The ball indicates whether the airplane is in coordinated flight or is in a slip or skid.

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13
Q

What will the turn indicator indicate when the aircraft is in a “skidding” or a “slipping” turn?

A

Slip—The ball in the tube will be on the inside of the turn; not enough rate of turn for the amount of bank.

Skid—The ball in the tube will be to the outside of the turn; too much rate of turn for the amount of bank.

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