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A small ball is placed at the top of a s...

A small ball is placed at the top of a smooth hemispherical wedge of radius R. If the wedge is accelerated with an acceleration a, find the velocity of the ball relative to wedge as a function of `theta`.

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Verified by Experts

In the reference frame of hemisphere. Apply a pseudo force on m.

From the work-energy theorem,

`W_("total")=Delta K implies W_(gr)+W_(pseudo)=Delta K`
`mgR(1-cos theta)+ma_(0)R sin theta=(1)/(2)mv^(2)-0`
`v=sqrt(2R{g(1-costheta)+a_(0)sin theta))}`
The work done by normal reaction N is zero because it is always perpendicular to displacement.
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