A solid cylinder 30 cm in diameter at the top of an inclined plane 2.0 m high is released and rolls down the incline without loss of energy due to friction. Its linear speed at the bottom is

A solid sphere at the top of an inclined plane 0.6 m high is released and rolls down the incline without slipping and without loss of energy due to friction. Its linear speed at the bottom is about

A solid cylinder at rest at top of an inclined plane of height 2.7 m rolls down without slipping. If the same cylinder has to slide down a frictionless inclined plane and acquires the same velocity as that acquired by centre of mass of rolling cylinder at the bottom of the incline, what should be the height of inclined plane?

A solid cylinder at rest at top of an inclined plane of height 2.7 m rolls down without slipping. If the same cylinder has to slide down a frictionaly inclined plane and acquires the same velocity as that acquired by centre of mass of rolling cylinder at the bottom of the incline, what should be the height of inclined plane ?

A solid cylinder is rolling without slipping down an inclined plane. Then its angular momentum is :

A solid cylinder is rolling down a rough inclined plane of inclination theta . Then

A cylinder is released from rest from the top of an incline of inclination theta and length. If the cylinder rolls without slipping. What will be its speed whenit reaches the bottom?

A cylinder is released from rest from the top of an incline of inclination theta and length l . If the cylinder roles without slipping, its speed at the bottom

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 ?

A solid sphere rolls down without slipping from rest on a 30^@ incline. Its linear acceleration is