A uniform disc of mass m and radius `R` is released gentiy on a horizontal rough surface. Such that centre of the disc has velocity `V_(0)` towards right and angular velocity `omega_(0)` (anticlockwise) as shown.

Disc will certainly come back to its intial position if

A uniform circular disc of radius R is rolling on a horizontal surface. Determine the tangential velocity : the centre of mass

A uniform solid sphere of mass m and radius r = 3m is projected along a rough horizontal surface with the initial velocity v_(0) = 6m//s and angular omega_(0) velocity as shown in the figure. If the sphere finally comes to complete rest then angular velocity is x rad/s. Find x.

A uniform circular disc of radius r is placed on a rough horizontal surface and given a linear velocity v_(0) and angular velocity omega_(0) as shown. The disc comes to rest after moving some distance to the right. It follows that

A uniform circular disc placed on a horizontal rough surface has initially a velocity v_(0) and an angular velocity omega_(0) as shown in the figure. The disc comes to rest after moving some distance in the direction of motion. Then v_(0)//omega_(0) is :

A uniform disc of mass m and radius R I rotated about an axis passing through its centre 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. Coefficnet of friction between te disc and the surface is mu , find (a). The time when disc stops rotating (b). The angle rotated by the disc before stopping.

A disc of radius R and mass m is projected on to a horizontal floor with a backward spin such that its centre of mass speed is v_(0) and angular velocity is omega_(0) . What must be the minimum value of omega_(0) so that the disc eventually returns back?