The two masses in the Atwood's machine shown in the figure are initially at rest at the same height. After they are released, the large mass, m2, falls through a height h and hits the floor, and the small mass, m2, rises through a height h. (Figure 1) Figure O 1 of 1 y D=0 x----M. m2

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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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20 5a

Part A
Find the speed of the masses just before m2 lands, giving your answer in terms of m1, m2, g, and
h. Assume the ropes and pulley have negligible mass and that friction can be ignored.
Express your answer in terms of the variables m1, m2, h, and appropriate constants.
Uf =
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Transcribed Image Text:Part A Find the speed of the masses just before m2 lands, giving your answer in terms of m1, m2, g, and h. Assume the ropes and pulley have negligible mass and that friction can be ignored. Express your answer in terms of the variables m1, m2, h, and appropriate constants. Uf = Submit Request Answer
The two masses in the Atwood's machine shown in the
figure are initially at rest at the same height. After they
are released, the large mass, m2, falls through a height
h and hits the floor, and the small mass, m2, rises
through a height h.
(Figure 1)
Figure
1 of 1
D=0
m2 = ?
Transcribed Image Text:The two masses in the Atwood's machine shown in the figure are initially at rest at the same height. After they are released, the large mass, m2, falls through a height h and hits the floor, and the small mass, m2, rises through a height h. (Figure 1) Figure 1 of 1 D=0 m2 = ?
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