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Question

Both springs, string and pulley shown in the figure are light. Initially when both the springs were in their natural state, the system was released from rest. The maximum displacement of the block having mass m is:


A
5mgk
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B
3mgk
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C
10mgk
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D
4mgk
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Solution

The correct option is C 10mgk
When block is at maximum displacement (v=0), let the extension in upper spring be x. Then the pulley will be also be lowered by x. This will result in slackening of string by length 2x, hence the block will be lowered by 2x.

Balancing forces ( for massless pulley) gives tension 2T in upper spring,
Spring force=2T
kx=2T
T=kx2
In lower pulley, T=kx
kx2=kx
Hence extension in lower spring,
x=x2

Therefore, the block will be lowered by a total distance =2x+x2=5x2


Applying mechanical energy conservation for system:
Loss in Grav. PE of block=Gain in elastic PE of springs
mg×5x2=12kx2+12k(x2)2
52mgx=kx22+kx28

52mgx=58kx2
x=4mgk
The maximum displacment of block is,
xm=5x2
xm=52×4mgk=10mgk

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