A horizontal force `F` acts at the centre of mass of a uniform disc with mass `M` and radius `R`. The maximum value of `F` for which the disc can roll without slipping is `k mu_(s) M g`. Find `k`. ( `mu`, is coefficient of friction)

A horizontal force F acts on the sphere at its centre as shown. Coefficient of friction between ground and sphere is mu . What is maximum value of F for which there is no slipping?

A tangential force F acts at the top of a thin spherical shell of mass m and radius R . Find the acceleration of the shell if it rolls without slipping.

In the figure shown, a force F is applied at the top of a disc of mass 4 kg and radius 0.25 m. find maximum velue of F for no slipping.

A force F is applied at the centre of a disc of mass M. The minimum value of coefficient of friction of the surface for rolling is

Find the centre of mass of a thin, uniform disc of radius R from which a small concentric disc of radius r is cut.

A horizontal force F is applied at a height h above the center of a solid cylinder of mass m and radius R . Determine friction, if cylinder rolls without slipping. For what value of h , friction is zero.

A horizontal force F = 14 N acts at the centre of mass of a sphere of mass m = 1 kg . If the sphere rolls without sliding, find the frictional force (in N )

A force F acts tangentially at the highest point of a disc of mass m kept on a rough horizontal plane. If the disc rolls without slipping, the acceleration of centre of the disc is:

A thin uniform spherical shell of mass m = 2 kg and radius R = 10 cm is placed on a rough horizontal surface with a coefficient of friction mu = 0.4 . A horizontal force 'F' is applied to the spherical shell at a height R//3 ablove the centre as shown. The maximum magnitude of the applied force 'F' for which the spherical shell will be rolling without slipping is (taking g = 10 m//a^(2) )