Four rigid bodies, each with the same mass and radius, are spinning freely with the same angular momentum. Which object requires the maximum work to stop it ?

A ring and a solid sphere of same mass and radius are rotating with the same angular velocity about their diameteric axes then :-

There object, A : (a solid sphere), B : (a thin circular disk) and C : (a circular ring), each have the same mass M and radius R . They all spin with the same angular speed omega about their own symmetry axes. The amount of work (W) required ot bring them to rest, would satisfy the relation

The following particles are moving with the same velocity. Which particle has maximum momentum ?

A uniform disk, a thin hoop (ring), and a uniform sphere, all with the same mass and same outer radius, are each free to rotate about a fixed axis through its center. Assume the hoop is connected to the rotation axis by light spokes. With the objects starting from rest, identical forces are simultaneously applied to the rims, as shown. Rank the objects according to their angular momentum after a given time t, least to greatest.

Which of the following bodies of same mass and same radius has minimum moment of inertia?

A solid sphere of mass m and radius R is rotating about its diameter. A solid cylinder of the same mass and same radius is also rotating about its geometrical axis with an angular speed twice that of the sphere. The ratio of their kinetic emergies of rotation (E_("sphere")//E_("cylinder")) will be.

A solid sphere of mass m and radius R is rotating about its diameter. A solid cylinder of the same mass and same radius is also rotating about its geometrical axis with an angular speed twice that of the sphere. The ratio of their kinetic emergies of rotation (E_("sphere")//E_("cylinder")) will be.

A solid sphere A and a hollow sphere B have the same mass, radius and same angular velocity are moving in the same direction. The angular momentum of sphere A will be?

Two bodies A and B of same mass are moving with velocities v and 2v, respectively. Compare their momentum.

A horizontal disc rotates freely with angular velocity omega about a vertical axes through its centre. A ring having the same mass and radius as the disc, is now gently placed coaxially on the disc. After some time, the two rotate with a common angular velocity. then.