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.

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

A mass m is placed at point P lies on the axis of a ring of mass M and radius R at a distance R from its centre. The gravitational force on mass M is

Moment of inertia of a uniform circular ring of mass M and radius R about a diameter of ring is………………. .

A particle of mass m is placed on centre of curvature of a fixed, uniform semi-circular ring of radius R and mass M as shown in figure. Calculate: (a) interaction force between the ring and the particle and (b) work required to displace the particle from centre of curvature to infinity.

The maximum electric field intensity on the axis of a uniformly charged ring of charge q and radius R is at a distance x from the centre of the ring.The value of x is

A point P lies on the axis of a fixed ring of mass M and radius a , at a distance a from its centre C . A small particle starts from P and reaches C under gravitational attraction only. Its speed at C will be.

A point P lies on the axis of a fixed ring of mass M and radius R , at a distance 2R from its centre O . A small particle starts from P and reaches O under gravitational attraction only. Its speed at O will be

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

A uniform rig of mas m and radius a is placed directly above a uniform sphre of mass M and of equyal radius. The centre of the ring is at a distance sqrt3 a from the centre of the sphere. Find the gravitational foerce exerted by the sphere on the ring.

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