A pilot of mass m in a jet aircraft executes a loop-the-loop, as shown in Figure I.5. In this maneuver, the aircraft moves in a vertical circle of radius 2.70 km at a constant speed of 225 m/s. (a) Draw the free-body diagram for the pilot at the bottom and at Top the top of the loop. R. Determine the force exerted by the seat on the pilot (b) at the bottom of the loop, and (c) at the top of the loop. Bottom Figure I.5

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CA Pilot
A% pilc CA Pilot C 6. Cons C Item 2 C A Pilot CA 2.40- b
on%202.pdf
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T Add text
7 D
Page 1/2
5. A pilot of mass m in a jet aircraft executes a loop-the-loop, as
shown in Figure I.5. In this maneuver, the aircraft moves in a
vertical circle of radius 2.70 km at a constant speed of 225 m/s.
Top
(a) Draw the free-body diagram for the pilot at the bottom and at
R.
the top of the loop.
Determine the force exerted by the seat on the pilot
(b) at the bottom of the loop, and
(c) at the top of the loop.
Bottom
Figure I.5
6. Consider the system shown in Figure I.6. The rope and pulley have negligible mass, and the
pulley is frictionless, The coefficient of kinetic friction hot
Transcribed Image Text:CA Pilot A% pilc CA Pilot C 6. Cons C Item 2 C A Pilot CA 2.40- b on%202.pdf CD Page view A Read aloud T Add text 7 D Page 1/2 5. A pilot of mass m in a jet aircraft executes a loop-the-loop, as shown in Figure I.5. In this maneuver, the aircraft moves in a vertical circle of radius 2.70 km at a constant speed of 225 m/s. Top (a) Draw the free-body diagram for the pilot at the bottom and at R. the top of the loop. Determine the force exerted by the seat on the pilot (b) at the bottom of the loop, and (c) at the top of the loop. Bottom Figure I.5 6. Consider the system shown in Figure I.6. The rope and pulley have negligible mass, and the pulley is frictionless, The coefficient of kinetic friction hot
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