A nollow sphere and a solid sphere having same mass and same radii are rolled down a rough incline plane.

Three bodies a ring (R), a solid cylinder (C) and a solid sphere (S) having same mass and same radius roll down the inclined plane without slipping. They start from rest, if VR. V_c and V_s are velocities of respective bodies on reaching the bottom of the plane, then

A solid cylinder and a solid sphere, both having the same mass and radius, are released from a rough inclined plane of inclination theta one by one. They roll on the inclined plane without slipping. The force of friction that acts

A solid sphere and a solid cylinder having the same mass and radius, rolls down the same incline. The ratio of their acceleration will be

A hollow sphere, a solid sphere, a disc and a ring all having same mass nd radius are rolled won on an inclined plane. If no slipping takes place, which one will take the smallest time to cover a given length?

A solid iron sphere A rolls down an inclined plane, while another hollow sphere B with the same mass and same radius also rolls down the inclided plane. If V_(A) and V_(B) are their velocities a the bottom of the inclined plane. Then

P is a solid sphere and Q is a hollow sphere both having the same mass and radius .If they roll down from the top of an inclined plane , on reaching the bottom .

A solid sphere having mass m and radius r rolls down an inclined plane. Then its kinetic energy is