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

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

What is rolling kinetic energy ?

A thin wallet hollow cylinder is rolling down an incline , without slipping. At any instant , the ratio " Rotational K.E : Translational K.E:Total K.E." 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

When a solid sphere rolls without slipping on a surface, its rotational kinetic,energy is 40 J. Then its total kinetic energy is

A thin walled hollow cylinder is rolling down an incline, without slipping. At any instant, the ratio "Rotational K.E.: Translational K.E.: Total K.E." is:

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 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 ring rotates without slipping on a horizontal smooth surface, the ratio of translational energy to the total energy of the ring is