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Initially spring is compressed by x(0) a...

Initially spring is compressed by `x_(0)` and blocks are in contact when system is released, then block starts moving and after some time contact between blocks, then

A

Blocks will be separated at natural length of spring.

B

After separation block A performs SHM os amplitude `x_(0)sqrt(m_(1)/(m_(1)+m_(2))`

C

After separation maximum velocity of block A is `x_(0)sqrt(k/(m_(1)+m_(2))`

D

After separation block A will perfom SHM of amplitude `x_(0)`

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A, B, C
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DC PANDEY-SIMPLE HARMONIC MOTION-More than one option is correct
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  7. System shown in fig is in equilibrium and at rest. The spring and stri...

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  8. In the figure shown, a block A of mass m is rigidy attached to a light...

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  9. Passage IX) For SHM to take place force acting on the body should be p...

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  10. Passage IX) For SHM to take place force acting on the body should be p...

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  11. Passage X) A 2kg block hangs without vibrating at the bottom end of a ...

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  12. Passage X) A 2kg block hangs without vibrating at the bottom end of a ...

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  13. Passage X) A 2kg block hangs without vibrating at the bottom end of a ...

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  14. Passage XI) The differential equation of a particle undergoing SHM is ...

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  15. Passage XI) The differential equation of a particle undergoing SHM is ...

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  16. The equation of motion may be given by

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  17. Passage XII) A particle of mass m is constrained to move along x-axis....

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  18. Passage XII) A particle of mass m is constrained to move along x-axis....

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  19. Passage XII) A particle of mass m is constrained to move along x-axis....

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  20. Passage XIII) Mr. Anoop having mass 50 ks is standing on a massless pl...

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