A wheel moving down a perfectly frictionless inclined plane will undergo slipping (not rolling) motion.

A particle starts sliding down a frictionless inclined plane. If S_(n) is the distance travelled by it from time t = n-1 sec , to t = n sec , the ratio (S_(n))/(s_(n+1)) is

An inclined plane makes an angle 30° with the horizontal. A solid sphere rolling down this inclined plane from rest without slipping has a linear acceleration equal to

A solid cylinder is rolling down the inclined plane without slipping. Which of the following is correct?

A small disc can slide in a circular path on a frictionless inclined plane inclined at an angle of 30^(@) with the help of a thread as shown. Mass of the disc is m and acceleration due to gravity is g . If the disc is released, when the thread is horizontal, expression for the tension in the thread at the lowest point is

Two blocks each of mass M are resting on a frictionless inclined plane as shown in fig then:

Block A of weight 100 N rests on a frictionless inclined plane of slope angle 30^(@) . A flexible cord attached to A passes over a frictionless pulley and is connected to block B of weight w. Find the weight w for which the system is in equilibrium

A thin uniform circular ring is rolling down an inclined plane of inclination 30^(@) without slipping. Its linear acceleration along the inclined plane is :

Three bodies, a ring, a solid cylinder and a solid sphere roll down the same inclined plane without slipping. They start from rest. The radii of the bodies are identical. Which of the bodies reaches the ground with maximum velocity?

Derive an expressions for the kinetic energy and velocity on an inclined plane of inclination theta for the body rolling without sliding.