An annular ring with inner and outer radii `R_1` and `R_2` is rolling wihtout slipping with a uniform angular speed. The ratio of the forces experienced by the two particles situated on the inner and outer parts of the ring, `F_1/F_2` is

An angular ring wth inner and outer radii R_(1) = 1.2 cm and R_(2) = 4.8 cm is rolling without slipping with a unifrom angular speed. What is the ratio of the forces experienced by the two particles of same mass situted on the outher and inner parts of the annular ring ?

The annular disc of copper, with inner radius a and outer radius b is rotating with a uniform angular speed omega , in a region where a uniform magnetic field B along the axis of rotation exists. Then, the emf induced between inner side and the outer rim of the disc is-

A hollow cylinder with inner radius R . Outer radius 2R mass M is rolling with speed of it's axis v . What is its kinetic energy ? .

A ring of inner and outer radii 8 and 9 cm is pulled out of water surface with a force of [S.T of water (T)=70"dyne"//cm]

1If r and R be the radii of inner and outer circles respectively,then area of ring is

The radii of three concentric circles are in the ratio 1:2:3. Find the ratio of the area between the two inner circles to that between the two outer circles.

Find the centre of mass of a uniform plate having semicircular inner and outer boundaries of radii R_1 and R_2 .

An annular circular brass disk of inner radius 'r' and outer radius 'R' is rotating about an axis passing through its centre and perpendicular to its plane with a uniform angular velocity 'omega' in a uniform magnetic filed of induction 'B' normal to the plane of the disk. The induced emf between the inner and outer edge of the annular disk is