A tangential force F acts at the top of a disc of a mass m and radius R . If it rolls without slipping. Then

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 particle of mass 'm' is attached to the rim of a uniform disc of mass 'm' and radius R. The disc is rolling wihtout slipping on a stationery horizontal surface as shown in the figure. At a particular instant, the particle is at the topmost position and centre of the disc has speed v_(0) amd its angular speed is omega . Choose the correct option (s).

Work energy theorem sys work done by all the force is equal to change in kinetic energy" In the diagram, a disc of mass M and radius R is rolling without slipping on a rough fixed inclined AB = l, V = velocity of disc at B . Choose the correct option(s)

Work energy theorem sys"work done by all the force is equal to change in kinetic energy" In the diagram, a disc of mass M and radius R is rolling without slipping on a rough fixed inclined AB = l, V = velocity of disc at B . Choose the correct option(s)

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 )

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.

If a tangential force mg is applied to a disc of mass m and radius r, the angular acceleration produced in it is?

Three forces of magnitude F, F and sqrt(2F) are acting on the periphery of a disc of mass m and radius R as shown in the figure. The net torque about the centre of the disc is

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: