A disc and a ring of the same mass are rolling down frictionless inclined plane, with the same kinetic energy. The ratio of the velocity of disc to the velocity of ring is

A disk and a ring of the same mass are rolling to have the same kinetic energy. What is ratio of their velocities of centre of mass

Two bodies a ring and a solid cylinder of same material are rolling down without slipping an inclined plane. The radii of the bodies are same. The ratio of velocity of the centre of mass of the bottom of the inclined plane of the ring to that of the cylinder is (sqrt(x))/(2) . Then, the value of x is ……………….

A ring of mass 1kg and radius 1m is moving with a velocity of 1m//s by rolling on a frictionless inclined plane. The total kinetic energy of the ring is

A ring of mass 1kg and radius 1m is moving with a velocity of 1m//s by rolling on a frictionless inclined plane. The total kinetic energy of the ring is

Three bodies a disc, a ring, a solid sphere of same radius, same mass are rolling down the same inclined plane without slipping. Which of three will reach the ground with minimum velocity ?

'A' solid sphere and solid disc having the same mass and radius roll down on the same inclined plane. What is the ratio of their accelerations ?

A disc and a solid sphere of same mass and radius roll down an inclined plane. The ratio of thhe friction force acting on the disc and sphere is

A disc and a solid sphere of same mass and radius roll down an inclined plane. The ratio of thhe friction force acting on the disc and sphere is