A rigid body of mass m and radius r starts coming down an inclined plane of inclination `theta` . Then find out the acceleration of centre of mass if friciton is absent.

A cylinder of mass m and radius R rolls down an inclined plane of inclination theta . Calculate the linear acceleration of the axis of cylinder.

A cylinder of mass m and radius R rolls down an inclined plane of inclination theta . Calculate the linear acceleration of the axis of cylinder.

A solid sphere of mass m rolls without slipping on an inclined plane of inclination theta . The linear acceleration of the sphere is

A solid cylinder of mass m and radius r starts rolling down an inclined plane of inclination theta . Friction is enough to prevent slipping. Find the speed of its centre of mass when its centre of mass has fallen a height h .

A solid cylinder of mass m and radius r starts rolling down an inclined plane of inclination theta . Friction is enough to prevent slipping. Find the speed of its centre of mass when its centre of mass has fallen a height h .

A solid cylinder of mass m and radius r starts rolling down an inclined plane of inclination theta . Friction is enough to prevent slipping. Find the speed of its centre of mass when its centre of mass has fallen a height h .

A disc of radius R is rolling down an inclined plane whose angle of inclination is theta Its acceleration would be

A disc of radius R is rolling down an inclined plane whose angle of inclination is theta Its acceleration would be

A body is freely rolling down on an inclined plane whose angle of inclination is theta . If a is acceleration of its centre of mass then following is correct