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

The angular momentum and the moment of inertia are respectively

The product of moment of inertia (I) and angular acceleration (alpha) is called

According to the principle of conservation of angular momentum, if moment of inertia of a rotating body decreases, then its angular velocity

Define angular momentum of a body. Obtain an expression for angular momentum of a rigid body rotating with uniform angular velocity. State the SI unit and dimensions.

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

The ratio of magnetic dipole moment to angular momentum of electron is

If L is the angular momentum and I is the moment of inertia of a rotating body, then L^2//2I represents its:

Derive an expression for kinectic energy of a rotating body with uniform angular velocity.

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

If the angular momentum of a body increases by 50 %, its kinetic energy of rotation increases by