A sphere of moment of inertia I rolls down a smooth inclined plane. The ratio of its translation K.E. to the total energy is

A circular hoop rolls down an inclined plane. The ratio of its total energy to rotational kinetic energy is

When a sphere of moment of inertia 'I' rolls down an inclined plane then find the percentage of rotational kinetic energy of the total energy.

A circular disc rolls down an inclined plane . The ratio of rotational kinetic energy to total kinetic energy is

If a solid cylinder rolls down an inclined plane, then its:

A sphere of moment of inertia 'I' and mass 'm' rolls down on an inclined plane without slipping its K.E. of rolling is

A body rolls down a smooth inclined plane. If its rotational kinetic energy is 40% of its translational K.E., then the body must be a

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 sphere is rolling on a horizontal surface without slipping. The ratio of the rotational K.E. to the total kinetic energy of the sphere is