A 30-kg disk A is attached to one end of a spring with stiffness k = 200 N/m at its center G. The other end of the spring is fixed at A. The disk is initially at with the spring unstretched. A couple moment of M = 80 Nm is then applied to the disk causing the disk to roll to the left without sliding. Consider the duration of motion when the disk rolls from the position shown (Position 1) to a position (Position 2) when its mass center G has moved 0.5 left. M = 80 N·m G k = 200 N/m A

Elements Of Electromagnetics
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A 30-kg disk A is attached to one end of a spring with stiffness k = 200 N/m at its center G. The other end of the spring is fixed at A. The disk is initially at rest
with the spring unstretched. A couple moment of M = 80 Nm is then applied to the disk causing the disk to roll to the left without sliding.
Consider the duration of motion when the disk rolls from the position shown (Position 1) to a position (Position 2) when its mass center G has moved 0.5 m to the
left.
M = 80 N·m
1.875w2^2
3.75w2^2
5.63w2^2
7.50w2^2
0.5 m
G
k = 200 N/m
A
1. Which of the following forces do/does negative work on the disk?
I. Applied couple
II. Force exerted by the spring
III. Normal force
IV. Friction between the disk and the horizontal surface
2. Which of the following equations gives the total kinetic energy of the disk at position 2 in terms of its angular velocity, w2?
O
Transcribed Image Text:A 30-kg disk A is attached to one end of a spring with stiffness k = 200 N/m at its center G. The other end of the spring is fixed at A. The disk is initially at rest with the spring unstretched. A couple moment of M = 80 Nm is then applied to the disk causing the disk to roll to the left without sliding. Consider the duration of motion when the disk rolls from the position shown (Position 1) to a position (Position 2) when its mass center G has moved 0.5 m to the left. M = 80 N·m 1.875w2^2 3.75w2^2 5.63w2^2 7.50w2^2 0.5 m G k = 200 N/m A 1. Which of the following forces do/does negative work on the disk? I. Applied couple II. Force exerted by the spring III. Normal force IV. Friction between the disk and the horizontal surface 2. Which of the following equations gives the total kinetic energy of the disk at position 2 in terms of its angular velocity, w2? O
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