A force `(F=Mg)` is applied on the top of a circular ring of mass M and radius R kept on a rough horizontal surface. If the ring rolls without slipping, then minimum coefficient of friction required is

A force F is applied at the top of a ring of mass M and radius R placed on a rough horizontal surface as shown in figure. Friction is sufficient to prevent slipping. The friction force acting on the ring is:

A ring of mass m and radius R is placed on a rough inclined plane so that it rolls without slipping . Match the following table.

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 constant horizontal force of 5N in magnitude is applied tangentially to the top most of a ring of mass 10 kg and radius 10 cm kept on a rough horizontal surface with coefficient of friction between surface and ring being 0.2. The friction force on the ring would be: (g = 10 m//s^(2))

A ring of mass m and radius R rolls on a horizontal roudh surface without slipping due to an applied force 'F' . The frcition force acting on ring is :-

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

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.

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.

A solid cylinder rolls without slipping down a 30^@ slope. The minimum coefficient of friction needed to prevent slipping, will be

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