A sphere rolls down an inclined plane through a height h. Its velocity at the bottom would be

A solid sphere rolls down an inclined plane and its velocity at the bottom is v_(1) . Then same sphere slides down the plane (without friction) and let its velocity at the bottom be v_(2) . Which of the following relation is correct

A solid sphere rolls down an inclined plane and its velocity at the bottom is v_(1) .The same sphere slides down the plane (without friction ) and its velocity at the bottom is v_(2) . Find the relation between v_(1) & v_(2)

A block is released from the top of an inclined plane of inclination theta . Its velocity at the bottom of plane is v . If it slides down a rough inclined plane of the same inclination , its velocity at bottom is v//2 . The coefficient of friction is

A body starts rolling down an inclined plane of length L and height h. This body reaches the bottom of the plane in time t. The relation between L and t is?

A body starts rolling down an inclined plane of length L and height h. This body reaches the bottom of the plane in time t. The relation between L and t is?

A body' of mass m slides down on an inclined plane and reaches'the bottom with a velocity V. If the same mass were in the form of a ring which rolls down on the inclined plane, then the velocity of the ring at the bottom will be

A solid cylinder rolls down from an inclined plane of height h. What is the velocity of the cylinder when it reaches at the bottom of the plane ?

If a ring, a disc, a solid sphere and a cyclinder of same radius roll down an inclined plane, the first one to reach the bottom will be:

If a ring, a disc, a solid sphere and a cyclinder of same radius roll down an inclined plane, the first one to reach the bottom will be: