A thin ring and a solid disc of same mass and radius are rolling with the same linear velocity. Then ratio of their kinetic energies is

'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 circular disc of mass 0.41 kg and radius 10 m rolls without slipping with a velocity of 2 m/s. The total kinetic energy of disc is

A thin hollow cylinder open at both ends slides without rotating and then rolls without slipping with the same speed. The ratio of the kinetic energies in the two cases is

A solid cylinder and a solid sphere roll down on the same inclined plane. Then ratio of their acclerations is

A cylindrical ring is rolling without slipping. The ratio of rotational and translational kinetic energies is

A ring and a disc of different masses are rotating with the same kinetic energy. If we apply a retarding torque r on the ring and the ring stops after making n revolutions, then in how many revolutions will the disc stop under the same retarding torque ?

A ring and a disc roll on the horizontal surface without slipping with same linear velocity. If both have same mass and total kinetic energy of the ring is 4 J then total kinetic energy of the disc is

A ring and a disc have same mass and same radius. Then ratio of moment of inertia of ring to the moment of inertia of disc is

A ring, a disc, a hollow sphere, a solid sphere of the same mass and radius are released from the top of an inclined plane. Then the bodies which reach the bottom first and last are

A loop of mass M,and radius R is rolling on a smooth horizontal surface with speed 'v'. Its total kinetic energy is