19 Rigidity depends on what 3 factors? Gravity, radius of Gyration and direction of spin. Mass of the rotor, radius of gyration, & speed of spin. Wander, drift and speed of spin. Mass of the rotor, distance to spin axis, & direction of spin. 20. The pilot of this aircraft pulls the control column back to start a climb. She makes no change to the engine power. The aircraft loses speed as it converts potential energy into kinetic energy. The total amount of energy in the aircraft reduces. The aircraft's speed remains the same because the engine power is unchanged. The aircraft loses speed as it converts kinetic energy into gravitational potential energy
19 Rigidity depends on what 3 factors? Gravity, radius of Gyration and direction of spin. Mass of the rotor, radius of gyration, & speed of spin. Wander, drift and speed of spin. Mass of the rotor, distance to spin axis, & direction of spin. 20. The pilot of this aircraft pulls the control column back to start a climb. She makes no change to the engine power. The aircraft loses speed as it converts potential energy into kinetic energy. The total amount of energy in the aircraft reduces. The aircraft's speed remains the same because the engine power is unchanged. The aircraft loses speed as it converts kinetic energy into gravitational potential energy
Automotive Technology: A Systems Approach (MindTap Course List)
6th Edition
ISBN:9781133612315
Author:Jack Erjavec, Rob Thompson
Publisher:Jack Erjavec, Rob Thompson
Chapter22: Basics Of Electronics And Computer Systems
Section: Chapter Questions
Problem 4RQ: Means that data concerning the effects of the computers commands are fed back to the computer as an...
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Question
19
Rigidity depends on what 3 factors?
Gravity, radius of Gyration and direction of spin.
Mass of the rotor, radius of gyration, & speed of spin.
Wander, drift and speed of spin.
Mass of the rotor, distance to spin axis, & direction of spin.
20.
The pilot of this aircraft pulls the control column back to start a climb. She makes no change to
the engine power.
The aircraft loses speed as it converts potential energy into kinetic energy.
The total amount of energy in the aircraft reduces.
The aircraft's speed remains the same because the engine power is unchanged.
The aircraft loses speed as it converts kinetic energy into gravitational potential energy
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