The rotational kinetic energies of two bodies of moments of inertia `9 kg m^2` and `1kg m^2` are same. The ratio of their angular momenta is

The rotational kinetic energies of two flywheels are equal. If the ratio of their moments of inertia is 1:9 then the ratio of their’angular momenta is

Kinetic energy of a body is 4 J and its moment of inertia is 2 kg m^2 , then angular momentum is

Two bodies of masses m_(1) and m_(2) have same kinetic energy. The ratio of their momentum is

Kinetic energy of a wheel rotating about its central axis is E. Then kinetic energy of another wheel having twice the moment of inertia and half the angular momentum as that of the first wheel is

The kinetic energy of a body of mass 4 kg and momentum 6 N-s will be

A disc of radius 10 cm can rotate about an axis passing through its centre and perpendicular to its plane. A force of 10 N is applied along the tangent in the plane of the disc. If the moment of inertia of the disc about its centre is 5 kg m2, then the increase in the angular velocity of the disc in 10 s will be

A man standing on a frictionless rotating platform rotates at 1 rps, his arms are outstretched and he holds a weight in his hands. In this position, the total moment of inertia of the system is 6 kg m^2 , he leaves the weights, the moment of inertia decreases to 2kg m^2 . The resulting angular speed of the platform is

A disc of moment of inertia I_1 , is rotating in horizontal plane about an axis passing through its centre and perpendicular to its plane with constant angular speed omega_1 . Another disc of moment of inertia I_2 having angular speed omega_2 The energy lost by the initial rotating disc is

A metallic ring of mass 1 kg has moment of inertia 1 kg m^2 when rotating about one of its diameters. It is molten and remolded into a thin uniform disc of the same Radius. How much will its moment of inertia be, when rotated about its own axis.

The relation’ between the torque r and angular momentum L of a body of moment of inertia I rotating with angular velocity omega is