M X n Block A Block B Hk = 0 M Hk = H -오- Side View A track consists of a frictionless arc XY, which is a quarter-circle of radius R, and a rough horizontal section YZ. Block A of mass M is released from rest at point X, slides down the curved section of the track, and collides instantaneously and inelastically with identical block B at point Y. The two blocks move together to the right, sliding past point P, which is a distance L from point Y. The coefficient of kinetic friction between the blocks and the horizontal part of the track is µ Express your answers in terms of M, L, µ, R, and g. c. Assuming that no energy is transferred to the track or to the air surrounding the blocks. Determine the amount of internal energy transferred in the collision

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Chapter1: Units, Trigonometry. And Vectors
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M Block A
Block B
M
Hk = H
P
-
Side View
A track consists of a frictionless arc XY, which is a quarter-circle of radius R, and a rough horizontal section YZ. Block A of mass
M is released from rest at point X, slides down the curved section of the track, and collides instantaneously and inelastically with
identical block B at point Y. The two blocks move together to the right, sliding past point P, which is a distance L from point Y. The
coefficient of kinetic friction between the blocks and the horizontal part of the track is u Express your answers in terms of M, L, u, R,
and g.
Assuming that no energy is transferred to the track or to the air surrounding the blocks. Determine the amount of internal energy
transferred in the collision
c.
Transcribed Image Text:M Block A Block B M Hk = H P - Side View A track consists of a frictionless arc XY, which is a quarter-circle of radius R, and a rough horizontal section YZ. Block A of mass M is released from rest at point X, slides down the curved section of the track, and collides instantaneously and inelastically with identical block B at point Y. The two blocks move together to the right, sliding past point P, which is a distance L from point Y. The coefficient of kinetic friction between the blocks and the horizontal part of the track is u Express your answers in terms of M, L, u, R, and g. Assuming that no energy is transferred to the track or to the air surrounding the blocks. Determine the amount of internal energy transferred in the collision c.
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