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Question

If the system in the figure is released from rest in the configuration shown, find the velocity of the block Q after it has fallen through a distance 10 meters. Given P=Q=10 kg.


A
8 m/s
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B
8.85 m/s
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C
9.5 m/s
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D
10 m/s
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Solution

The correct option is B 8.85 m/s
When Q falls down 10 meters, the pulley A will fall down 5 metres and hence P will be lifted up by 5 metres.

Loss of potential energy of system =(10×1010×5)9.8=50×9.8 J
If v be the velocity of Q after falling 10 metres, then v2 must be the velocity of P at that instant.
Kinetic energy gained by the system
=12×10×v2+12×10×(v2)2=254v2
Gain of kinetic energy = Loss of potential energy
254v2=50×9.8
v=8.85 m/sec

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