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Question

A solid sphere of mass m is kept between two planks rolls moving without slipping with the velocities as shown.


Determine the total kinetic energy of the solid sphere.

A
12mv2
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B
45mv2
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C
115mv2
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D
135mv2
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Solution

The correct option is C 115mv2

Let the velocity of the centre of mass of the sphere be vc and radius of the sphere r.
Assuming that the sphere moves in anticlockwise direction with angular speed ω
The velocities at the contact points A and B are


At point A
vcωr=v....(1)
At point B
vc+ωr=3v.....(2)
Adding (1) and (2)
2vc=4v
vc=2v

Total kinetic energy of the sphere = Rotational kinetic energy + Translational kinetic energy
Now total kinetic energy will be
KEtotal=12mv2c+12Icω2
From (2), ωr=3vvcω=vr
Also IC=25mr2
KEtotal=12m(2v)2+12×25×mr2×v2r2
KEtotal=2mv2+15mv2
KEtotal=115mv2

Hence, option (c) is correct.

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