A disc starts rotating with a constant angular acceleration of `1 rad//s^(2)` about a fixed vertical axis perpendicular to its plane and passing through its centre. A coin of mass `10 gm` is placed on the disc at a distance of `10cm` from the axis. The coefficent of friction between the disc and the coin is `0.2`. The value of the frictional force on the coin at `t=1s` will be

At time t = 0 , a horizontal disc starts rotating with angular acceleration 1 red s about an axis perpendicular to its plane and passing through its centre. A small block is lying on this disc at a distance 0.5 m from the centre. Coefficient of friction between the surface of block and disc is 0.255. The block will start slipping on the disc at time t . Which is approximately equal to

A metal disc of radius R rotates with an angular velcoity omega about an axis perpendiclar to its plane passing through its centre in a magnetic field B acting perpendicular to the plane of the disc. Calculate the induced emf between the rim and the axis of the disc.

Circular disc of mass 2 kg and radius 1 m is rotating about an axis perpendicular to its plane and passing through its centre of mass with a rotational kinetic energy of 8 J. The angular momentum is (Js) is

A gramophone disc rotates at 60 rpm . A coin of mass 18 g is placed at a distance of 8 cm from the centre . Calculate centrifugal force on the coin . Take pi^(2) = 9. 87 .

A round disc of moment of inertia I_2 about its axis perpendicular to its plane and passing through its centre is placed over another disc of moment of inertia I_1 rotating with an angular velocity omega about the same axis. The final angular velocity of the combination of discs is.

A disc rotates about its axis with a constant angular acceleration of 4rad/s^2 . Find the radial and tangential acceleration of a particle at a distance of 1 cm from the axis at the end of the first second after the disc starts rotating.

A smoothh disc is rotating with uniform angular speed omega about a fixed vertical axis passing through its centre and normal to its plane as shown. A small block of mass m is gently placed at the periphery of the disc. Then (pickup the correct alternative or alternatives)

A flywheel having a radius of gyration of 2m and mass 10 kg rotates at an angular speed of 5 rad s^(-1) about an axis perpendicular to it through its centre. The kinetic energy of rotation is

The moment of inertia of a copper disc, rotating about an axis passing through its centre and perpendicular to its plane

A uniform disc is rotating at a constantt speed in a vertical plane about a fixed horizontal axis passing through the centre of the disc. A piece of the disc from its rim detaches itself from the disc at the instant when it is at horizontal level with the centre of the disc and moving upward. Then about the fixed axis, the angular speed of the