A circular disc rolls down on an inclined plane. The fraction of its total rolling energy associated with its rotational energy is,

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

What is rolling kinetic energy ?

A body rolls down an inclined plane. If its kinetic energy of rotational motion is 40% of its kinetic energy of translation then the body is

When a solid sphere rolls down on an inclined plane of inclination 30^@ to the horizontal without slipping, acceleration of its centre of mass is

The radius of a wheel is R and its radius of gyration about an axis passing through its centre and perpendicular to its plane is k. If the wheel is rolling without slipping , the ratio of its rotational kinectic energy to its translational kinectic energy is

The radius of a wheel is R and its radius of gyration about an axis passing through its centre and perpendicular to its plane is K. If the wheel is rolling without slipping the ratio of its rotational kinetic energy to its translational kinetic energy is

What is fraction of translational kinetic energy of rolling ,circular disc to its total kinetic energy ?

When a body starts to roll on an inclined plane, its potential energy is converted into

A circular disc first rolls without slipping and then slides without rolling down the same inclined plane. The ratio of velocities of the disc at the bottom of the plane in both the cases repectively is

The M.I. of a solid cylinder about its axis is I. It is allowed to roll down an inclined plane without slipping. If its angular velocity at the bottom be omega , then kinetic energy of rolling cylinder will be