The angular momentum of a body with mass (m) moment of inertia `(I)` and angular velocity `(omega)" rad"//s` is equal to

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

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

Thye angular momentum and the moment of inertia are respectively

Establish a relation between angular momentum, moment of inertia and angular velocity.

Does moment of inertia depend upon the angular velocity of the body ?

Two wheels A and B are placed coaxially. A has moment of inertia I_(A) and angular velocity omega_(A) while B is stationary. On clubbing them a clutch they move jointly by an angular velcoity 'omega' then find the M.I of 'B'

A uniform circular disc of radius R is rotating about its own axis with moment of inertia I at an angular velocity omega if a denser particle of mass m is gently attached to the rim of disc than its angular velocity is

The moment of inertia (I) and the angular momentum (L) are related by the expression