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A particle performs SHM of amplitude A a...

A particle performs SHM of amplitude A along a straight line. When it is at distance `sqrt(3)/2` A from mean position, its kinetic energy gets increased by an amount `1/2momega^(2)A^(2)` due to an impulsive force. Then its new amplitude becomes.

A

`(sqrt(5))/(2)A`

B

`(sqrt(3))/(2)A`

C

`sqrt(2)A`

D

`sqrt(5)A`

Text Solution

Verified by Experts

The correct Answer is:
C
at `x = (sqrt(3))/(2)A`
`KE = 1/2 momega^(2) (A^(2) - (3)/(4)A^(2)) = 1/8 momega^(2)A^(2)`
`KE` is increased by an amount of `1/2momega^(2)A^(2)`. Let now amplitude be `A_(1)` then total `KE`
`KE_(1) = 1/8momega^(2)A^(2) + 1/2 momega^(2)A^(2)`
`= 5/8momega^(2)A^(2) = 1/2momega^(2)(A_(1)^(2) - (3)/(4)A^(2)) rArr A_(1) = sqrt(2)A`
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