A disc rolls down a plane of length L and inclined at angle `theta`, without slipping. Its velocity on reaching the bottom will be :-

A ring starts to roll down the inclined plane of height h without slipping . The velocity when it reaches the ground is

A metal disc of radius R and mass M freely rolls down from the top of an inclined plane of height h without slipping. The speed of its centre of mass on reaching the bottom of the inclined plane is

A solid cylinder of mass M and radius R rolls down an inclined plane of height h without slipping. The speed of its centre when it reaches the bottom is.

A block moves down a smooth inclined plane of inclination theta . Its velocity on reaching the bottom is v. If it slides down a rough inclined plane of some inclination, its velocity on reaching the bottom is v/n, where n is a number greater than 0. The coefficient of friction is given by -

A solid cylinder of mass 0.1 kg having radius 0.2m rolls down an inclined plane of height 0.6m without slipping. The linear velocity the cylinder at the bottom of the inclined plane is

A ring, a solid cylinder and sphere are rolled down on an inclined plane without slipping. Velocity of centre of mass is