ROTATIONAL ANALOUGE OF MOMENTUM

The angular momentum of a rotating body changes from A_(0) to 4 A_(0) in 4 min. The torque acting on the body is

Two bodies with moment of inertia l_(1) and l_(2) (l_(1) gt l_(2)) have equal angular momentum. If E_(1) and E_(2) are the rotational kinetic energies, then

The angular momentum is?

Assertion : If a particle is rotating in a circle, then angular momentum about centre is mvR Reason : In circular motion, angular momentum about centre is always constant.

A uniform rod of mass m is rotated about an axis passing through point O as shown. Find angular momentum of the rod about rotational law.

if the earth is treated as a sphere of radius R and mass M, Its angular momentum about the axis of its rotation with period T, is

Relationship between angular momentum L and kinetic energy E of a rigid body in pure rotation is

Assertion: For the plantes orbiting around the sun, angular speed, linear speed, K.E. changes with time, but angular momentum remains constant. Reason: No torque is acting on the rotating planet. So its angular momentum is constant.

A particle of mass m is rotating in a plane in circular path of radius r . Its angular momentum is L . The centripetal force acting on the particle is

The relation between angular momentum J of a body and rotational kinetic energy is given by J=sqrt(2EI) . The graph between J and sqrt(E) will be: