In the figure shown, the plank is being pulled to the right with a constant speed `v`. If the cylinder does not slip then:
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A plank of mass M , is placed on a smooth surface over which a cylinder of mass m(=M) annd radius R=1m is placed as shown in figure. Now the plane is pulled towards the right wilth an external force F(=2Mg) . If the cyinder does not slip over the surfcace of the plank, find the linear acceleration of he plank and the cylinder and the angular acceleration of the cylinder. (Take g=10 ms^(2) )

A plank of mass M , is placed on a smooth surface over which a cylinder of mas m(=M) annd radius R=1m is placed as shown in figure. Now the plane is pulled towards the right wilth an external force F(=2Mg) . If the cyinder does not slip over the surfcace of the plank, find the linear acceleration of he plank and the cylinder and the angular acceleration of the cylinder. (Take g=10 ms^(2) )

A plank of mass M is placed on a smooth surface over which a cylinder of mass m and radius R is placed as shown in figure-5.63. Now the plank is pulled towards right with an external force F. If cylinder does not slip over the surface of plank find the linear acceleration of plank and cylinder and the angular acceleration of the cylinder.

A plank with a uniform sphere placed on it rests on a smooth horizontal plane. The plank is pulled to the right by a constant force F . It the sphere does not slip over the plank, then

A plank with a uniform sphere placed on it rests on a smooth horizontal plane. The plank is pulled to the right by a constant force F . It the sphere does not slip over the plank, then

In the figure, the pulley P moves to the right with a constant speed v_(0) . If the velocity of B is v in downward direction, find the velocity of A.

A plank with a uniform sphere placed on it. Rests on a smooth horizontal plane. Plank is pulled to right by a constant force F . It the sphere does not slip over the plank. .

In the figure, the pulley P moves to the right with a constant speed u. The downward speed of A is v_(A) , and the speed of B to the right is v_(B) .

In the figure, the pulley P moves to the right with a constant speed u . The downward speed of A is v_(A) , and the speed of B to the right is v_(B) :