Initial angular velocity of a circualr disc of mass M is `omega_1.` The tow sphere of mass ma re attached gently to diametrically opposite points ont eh edge of the disc. What is the final angular velocity on the disc?

Initial angular velocity of a circular disc of mass M is omega_(1) . Then two small spheres of mass m are attached gently to two diametrically opposite points on the edge of the disc. What is the final angular velocity of the disc -

Initial angular velocity of a circular disc of mass M is omega_(1) . Then two small spheres of mass m are attached gently to two diametrically opposite points on the edge of the disc. What is the final angular velocity of the disc -

A circular disc of mass M and radius R is rotating with angular velocity omega . If two small spheres each of mass m are gently attached to two diametrically opposite points on the edge of the disc, then the new angular velocity of the disc will be

Angular velocity of a ring is omega . If we put two masses each of mass m at the diametrically opposite points then the resultant angular velocity (m=mass of ring)

Angular velocity of a ring is omega . If we put two masses each of mass m at the diametrically opposite points then the resultant angular velocity (m=mass of ring)

A disc of mass M and radius R is rotating about its axis with initial angular velocity of omega_0 as shown. Now two small masses of m each one kept on the circumference diametrically opposite to eachother. Find new angular velocity

A large disc has mass 2kg and radius 0.2 m and initial angular velocity 50 rad/s and small disc has mass 4kg and radius 0.1 m and initial angular velocity 200 rad/s both rotating about their common axis. Then the common final angular velocity after discs are in contact is,