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

When a circular disc of radius 0.5 m is rotating about its own axis then the direction of its angular momentum is

When a circular disc of radius 0.5 m is rotating about its own axis, then the direction of its angular momentum is

A thin circular ring of mass M and radius R is rotating about its axis with constant angular velocity omega . The objects each of mass m are attached gently to the ring. The wheel now rotates with an angular velocity.

A thin circular ring of mass M and radius R is rotating about its axis with constant angular velocity omega . The objects each of mass m are attached gently to the ring. The wheel now rotates with an angular velocity.

A circular disc of radius 20 cm is rotating about its own axis at an angular velocity omega . The angular velocity of a particle 'A' which is at a distance 10 cm from the axis of rotation is

A circular disc of radius R is rotating about its axis through O with uniform angular velocity omegarad//s as shown. The magnitude of velocity of A relative to B is

A thin circular ring of mass m and radius R is rotating about its axis perpendicular to the plane of the ring with a constant angular velocity omega . Two point particleseach of mass M are attached gently to the opposite end of a diameter of the ring. The ring now rotates, with an angular velocity (omega)/2 . Then the ratio m/M is

A thin circular ring of mass m and radius R is rotating about its axis perpendicular to the plane of the ring with a constant angular velocity omega . Two point particleseach of mass M are attached gently to the opposite end of a diameter of the ring. The ring now rotates, with an angular velocity (omega)/2 . Then the ratio m/M is

A thin circular ring of mass m and radius R is rotating about its axis with a constant angular velocity omega . Two objects each of mass M are attached gently to the opposite ends of a diameter of the ring. The ring now rotates with an angular velocity omega' =