A disc of the radius R is spun to an angular speed `omega_0` about its axis and then imparted a horizontal velocity of magnitude (at t = 0) with its plane remaining vertical. The coefficient of friction between the disc and the plane is `mu` . The sense of rotation and direction of its linear speed are shown in the figure . Choose the correct statement.

A disc of radius R is spun to an angular speed omega_(0) about its axis and then imparted a horizontal velocity of magnitude (omega_(0)R)/(4) (at t=0 ) with its plane remaining vertical. The coefficient of friction between the disc and the plane is mu . The sense of rotation and direction of its linear speed are shown in the figure. The disc returns to its initial point in time T=(25)/(6k mug)omega_(0)R . Find the value of k .

A disc of radius R is spun to an angualr speed omega_(0) about its axis and then imparted a horizontal velocity of magnitude (omega_(0)R)/(4) . The coefficient of friction is mu . The sense of rotation and direction of linear velocity are shown in the figure. The disc will return to its initial position.

A disc of mass M and Radius R is rolling with an angular speed omega on the horizontal plane. The magnitude of angular momentum of the disc about origin is:

A uniform disc of mass m and radius R is rotated about an axis passing through its center and perpendicular to its plane with an angular velocity omega_() . It is placed on a rough horizontal plane with the axis of the disc keeping vertical. Coefficient of friction between the disc and the surface is mu , find (a). The time when disc stops rotating (b). The angle rotated by the disc before stopping.

A ring of radius R is first rotated with an angular velocity omega and then carefully placed on a rough horizontal surface. The coefficient of friction between the surface and the ring is mu . Time after which its angular speed is reduced to half is

A ring of radius R is rotating with an angular speed omega_0 about a horizontal axis. It is placed on a rough horizontal table. The coefficient of kinetic friction is mu_k . The time after it starts rolling is.

A disc of radius R is moving on a rough horizontal surface with velocity v and angular speed omega at an instant as shown in figure. Choose the correct statement.

A disc of mass m and radius R rotating with angular speed omega_(0) is placed on a rough surface (co-officient of friction =mu ). Then

We have a disc of neglligible thickness and whose surface mass density varies as radial disance from centre as sigma=sigma_(0)(1+r/R) , where R is the radius of the disc. Specific heat of the material of the disc is C . Disc is given an angular velocity omega_(0) and placed on a horizontal rough surface such that the plane of the disc is parallel to the surface. Coefficient of friction between disc and suface is mu . The temperature of the disc is T_(0) . Answer the following question on the base of information provided in the above paragraph Magnitude of angular acceleration of disc is

A copper disc of radius 1 m is rotated about its natural axis with an angular velocity 2 rad/sec in a uniform magnetic field of 5 tesla with its plane perpendicular to the field. Find the emf induced between the centre of the disc and its rim.