A particle of mass `m` is rigidly attached at `A` to a ring of mass `3m` and radius `r`. The system is released from rest and rolls without sliding. The angular acceleration of ring just after release is

A small particle of mass m is attached at B to a hoop of mass m and radius r , whole system is placed on the rough horizontal ground. The system is released from rest when B is directly above A and rolls without slipping. Find the angular acceleration of the system at the instant when AB becomes horizontal as shown in the figure.

For a uniform ring of mass M and radius R at its centre

A small particle of mass m is fixed to the perimeter of a ring of same mass and radius r. The system comprising of particle and ring is placed on a horizontal plane. Friction is negligible on horizontal plane. Initially particle is at top most point, then the system is released from rest. Answer next two question when the particle is at the same height as the centre of ring aftr being released from top most point. Assume that the ring stays in vertical plane during its motion under consideration Mark the CORRECT option(s):

A ring of mass m and radius R is placed on a rough inclined plane so that it rolls without slipping . Match the following table.

A uniform disc of mass M and radius R is supported vertically by a pivot at its periphery as shown. A particle of mass M is fixed to the rim and raised to the highest point above the center. The system is released from rest and it can rotate about pivot freely. The angular speed of the system when the attached object is directly beneath the pivot, is

The moment of inertia of a ring of mass M and radius R about PQ axis will be

A rod of negligble mass and length l is pioveted at its centre. A particle of mass m is fixed to its left end and another particle of mass 2 m is fixed to the right end. If the system is released from rest and after sometime becomes verticle, The speed v of the two mases and angular velocity at that instant are

in the given figure a ring of mass m is kept on a horizontal surface while a body of equal mass m si attached through string, which is wounded on the ring. When the system is released the ring rolls without slipping. consider the following statement and choose the correct options. (i). Acceleration of centre of mass of ring is (2g)/(3) (ii). acceleration of hanging particle is (4g)/(3) (iii). Frictional force (on the ring) acts in backward direction. (iv) . Frictional force (on the ring) acts in backward direction.

A mass M is supported by a massless string wound round a uniform cylinder ofmass M and radius R. On releasing the mass from rest, it will fall with acceleration?

A particle of mass m is kept on the axis of a fixed circular ring of mass M and radius R at a distance x from the centre of the ring. Find the maximum gravitational force between the ring and the particle.