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 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 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 ring rolls down the inclined plane without slipping. Find the velocity of the ring when it reaches the ground.

A solid cylinder is rolling down the inclined plane without slipping. On which factor does the velocity of a cylinder at the bottom of an inclined plane depend?