A wheel with radius 0.0600 m rotates about a horizontal frictionless axle at its center. The moment of inertia of the wheel about the axle is 2.50 kg. m². The wheel is initially at rest. Then at t = 0 a force F(t) = (7.00 N/s)t is applied tangentially to the wheel and the wheel starts to rotate. Part A What is the magnitude of the force at the instant when the wheel has turned through 8.00 revolutions Express your answer with the appropriate units. ? ΜΑ F= 68 N Submit Previous Answers Request Answer
A wheel with radius 0.0600 m rotates about a horizontal frictionless axle at its center. The moment of inertia of the wheel about the axle is 2.50 kg. m². The wheel is initially at rest. Then at t = 0 a force F(t) = (7.00 N/s)t is applied tangentially to the wheel and the wheel starts to rotate. Part A What is the magnitude of the force at the instant when the wheel has turned through 8.00 revolutions Express your answer with the appropriate units. ? ΜΑ F= 68 N Submit Previous Answers Request Answer
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Transcribed Image Text:A wheel with radius 0.0600 m rotates about a
horizontal frictionless axle at its center. The
moment of inertia of the wheel about the axle is
2.50 kg. m². The wheel is initially at rest. Then at
t = 0 a force F(t) = (7.00 N/s)t is applied
tangentially to the wheel and the wheel starts to
rotate.
Part A
What is the magnitude of the force at the instant when the wheel has turned through 8.00 revolutions
Express your answer with the appropriate units.
?
ΜΑ
F= 68
N
Submit
Previous Answers Request Answer
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