The kinetic energy of a body rotating at 300 revolutions per minute is 62.8 J. Its angular momentum `(in kg m^2s^-1)` is approximately

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

The kinetic energy of rotation of a body about a given axis is 157J . Its angular momentum about the same axis is 12.5 kgm^2s^-1 .Find the frequency of rotation of the body and moment of inertia about the given axis?

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

A torque of 50 Nm acts on a rotating body for 5 s. Its angular momentum

A body starts rotating from rest and completes 10 revolutions in 4 s. Find its angular acceleration.

The diameter of a flywheel is 1.2 m and it makes 900 revolutions per minute. Calculate the acceleration at a point on its rim

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

When the kinetic energy of a body executing S.H.M. is 1/3 of the potential energy, the displacement of the body is x percent of the amplitude, where x is

The kinetic energy of 1 kg of oxygen at 300 K is 1.356 xx 10^6 J . Find kinetic energy of 4 kg of oxygen at 400 K.

A coil of 2000 turns and of mean radius 5 cm, makes 300 revolutions per minute around one of its diameters in a uniform magnetic field of induction 2.5 xx 10^-5 Wb/m^2 at right angles to its axis of rotation .Calculate the maximum e.m.f. induced in the coil and also its r.m.s. value.