In the figure shown, blocks P and Q are ...

In the figure shown, blocks `P` and `Q` are in contact but do not stick to each other. The lower face of `P` behaves as a plane mirror. The springs are in their natural lengths. The system is released from rest. Then the distance between `P` and `Q` when `Q` is at the lowest point first time will be

A

`(2mg)/(K)`

B

`(mg)/(K)`

C

`(4mg)/(K)`

D

0

Text Solution

Verified by Experts

The correct Answer is:

A

Both blocks loose contact immediately after the release
`T_(P) = 2pi sqrt((m)/(4K)) .T_(Q) = 2 pi sqrt((m)/(K))`
`:. T_(Q) = 2T_(P)`
Q comes at lowest position at time `(T_(Q))/(2)` travelling a distance `(2mg)/(K)` downwards.
In time `(T_(Q))/(2)`, i.e. time period of `P(T_(P))` the block `P` come back to original position
`:.` Time distance P and Q is `(2 mg)/(K)`

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