In the position shown in figure, if Block A is released from rest and pulls block B up the inclined surface, if the coefficient of kinetic friction between block B and the inclined surface is 0.5. a) Draw the free body diagrams showing all the forces acting on blocks A, B and pulley C b) Determine the velocity of block A as it hits the ground at D.

In the position shown in figure, if Block A is released from rest and pulls block B up the inclined surface, if the coefficient of kinetic friction between block B and the inclined surface is 0.5. a) Draw the free body diagrams showing all the forces acting on blocks A, B and pulley C b) Determine the velocity of block A as it hits the ground at D.

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Show solution steps in details.
Q2.
In the position shown in figure, if Block A is released from rest and pulls blockB up the
inclined surface, if the coefficient of kinetic friction between block B and the inclined
surface is 0.5.
a) Draw the free body diagrams showing all the forces acting on blocks A, B and pulley C
b) Determine the velocity of block A as it hits the ground at D.
400 Ib
B
H- 0.5
250 Ib
20
30
D

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