Two discs of moment of inertia `I_(1)` and `I_(2)` and angular speeds `omega_(1)` and `omega_(2)` are rotating along the collinear axes passing through their center of mass and perpendicular to their plane. If the two are made to rotate combindly along the same axis the rotational `K.E.` of system will be

If two disc of moment of inertia l_(1) and l_(2) rotating about collinear axis passing through their centres of mass and perpendicular to their plane with angular speeds omega_(1) and omega_(2) respectively in opposite directions are made to rotate combinedly along same axis, then the magnitude of angular velocity of the system is

A wheel rotates about an axis passing through the center and perpendicular to the plane with slowly increasing angular speed. Then it has

The moment of inertia of a copper disc, rotating about an axis passing through its centre and perpendicular to its plane

Two bodies having moments of inertia I_(1) and I_2 (I_(1) gt I_(2)) have same angular momentum. If E_(1) and E_(2) are their rotational kinetic energies,

Two balls of masses m and 2m are attached to the ends of a light rod of length L . The rod rotates with an angular speed omega about an axis passing through the center of mass of system and perpendicular to the plane. Find the angular momentum of the system about the axis of rotation.

A disc of mass m, radius r and carrying charge q, is rotating with angular speed omega about an axis passing through its centre and perpendicular to its plane. Calculate its magnetic moment

Two bodies with moment of inertia I_1 and I_2 (I_2 gt I_1) are rotating with same angular momentum. If K_1 and K_2 are their K.E.s, then

A thin rod of mass m and length 2L is made to rotate about an axis passing through its center and perpendicular to it. If its angular velocity changes from O to omega in time t , the torque acting on it is