A ball of density d is dropped onto a ho...

A ball of density d is dropped onto a horizontal solid surface. It bounces elastically from the surface and returns to its original position in a time `t_(1)`. Next, the ball is relasesed and it falls through the same height before striking the surface of a liquid of density `d_(L)`.
(a) If `dltd_(L)`, obtain an expression ( in terms of `d, t_(1)` and `d_(L))` for the time `t_(2)` the ball takes to come back to the position from which it was released.
(b) Is the motion of the ball simple harmonic?
(c ) If `d=d_(L)` how does the speed of the ball depend on its depth inside the liquid? Neglect all frictional and other dissipative force. Assume the depth of the liquid to be large.

Verified by Experts

The correct Answer is:

(i). `t_(2)=t_(2)[(d_(L))/(dL-d)]`
(ii). No.
(iii). Does not depend

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