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The figure shows a ball with mass m = 0.492 kg attached to the end of a thin rod

ID: 777271 • Letter: T

Question

The figure shows a ball with mass m = 0.492 kg attached to the end of a thin rod with length L = 0.358 m and negligible mass. The other end of the rod is pivoted so that the ball can move in a vertical circle. The rod is held horizontally as shown and then given enough of a downward push to cause the ball to swing down and around and just reach the vertically upward position, with zero speed there. How much work is done on the ball by the gravitational force from the initial point to (a) the lowest point, (b) the highest point, and (c) the point on the right level with the initial point? If the gravitational potential energy of the ball-Earth system is taken to be zero at the initial point, what is it when the ball reaches (d) the lowest point, (e) the highest point, and (f) the point on the right level with the initial point?

Chapter 08, Problem 004 that the The figure shows a ball with mass m = 0.492 kg attached to the end of a thin rod with length L = 0.358 m and negligible mass. The other end of the rod is pivoted so that the ball can move in a vertical circle. The rod is held horizontally as shown and then given enough of a downward push to cause the ball to swing down and around and just reach the vertically upward position, with zero speed there. How much work is done on the ball by the gravitational force from the initial point to (a) the lowest point, (b) the highest point, and (c) the point on the right level with the initial point? If the gravitational potential energy of the ball-Earth system is taken to be zero at the initial point, what is it when the ball reaches (d) the lowest point, (e) the highest point, and (f) the point on the right level with the initial point? (d) the lowest pointr thi tntialpoinc i the traiaion abth aationa tocause the bal to swing do n and L. (a) Number (b) Number (c) Number (d) Number (e) Number (f) Number Units Units Units Units

Explanation / Answer

a) mgL = 0.492 x 9.8 x 0.358 = 1.726 J

b) -mgL = -1.726 J

c) 0

d) -mgL = -1.726 J

e) mgL = 1.726 J

f) 0

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