" A body cannot roll without slipping on a "

A body is rolling without slipping on a horizontal plane. The rotational energy of the body is 40% of the total kinetic energy. Identify the body.

A body is rolling without slipping on a horizontal plane. The rotational energy of the body is 40% of the total kinetic energy. Identify the body

A body is rolling without slipping on a horizontal plane. The rotational energy of the body is 40% of the total kinetic energy. Identify the body

A body is rolling without slipping on a horizontal plane. The rotational energy of the body is 40% of the total kinetic energy. Identify the body.

A body is rolling without slipping on a horizontal plane. If the rotational energy of the body is 40% of the total kinetic energy, then the body might be

A body si rolling without slipping on a horizontal plane. If the rotational energy of the body is 40% of the total kinetic energy then the body might be:

When a body is rolling without slipping on a rough horizontal surface, the work done by friction is :

When a body is rolling without slipping on a rough horizontal surface, the work done by friction is :

When a body is rolling without slipping on a rough horizontal surface, the work done by friction is :

Assertion : A solid sphere cannot roll without slipping on smooth horizontal surface Reason : If the sphere is left free on smooth inclined surface. It cannot roll without slipping.