A solid cylinder is rolling without slipping on a plane having inclination `theta` and the coefficient of static friction `mu_(s)`. The relation between `theta` and `mu_(s)` is

Acceleration of a solid cylinder rolling without slipping down an incline of inclination theta is

A solid cylinder is rolling down a rough inclined plane of inclination theta . Then

A solid cylinder is rolling without slipping down an inclined plane. Then its angular momentum is :

If a solid cylinder rolls without slipping on an inclined plane of inclination 45° then the minimum coefficient of friction required to support pure rolling is

If a solid cylinder rolls without slipping on an inclined plane of inclination 45°, then the minimum coefficient of friction required to support pure rolling is

A solid sphere of mass m rolls without slipping on an inclined plain of inclination theta . What should be the minimum coefficient of static friction to support pure rolling?

A solid cylinder of mass 10 kg and radius 15 cm is rolling perfectly on a plane of inclination 30^(@) . The coefficient of static friction, mu_(s)=0.25 (i) Find the force of friction acting on the cylinder. (ii) What is the work done against friction during rolling ? (iii) If the inclination theta of the plane is increases, at what value of theta does the cylinder begin to skid, and not roll perfectly ?

A solid sphere of mass m rolls without slipping on an inclined plane of inclination 0. what should be the minimum coefficient of static friction to support pure rolling?

A solid cylinder roll up without slipping an inclined plane of inclination theta with an initial velocity v. How for does the cylinder go up the plane :-

A solid cylinder of mass m rolls without slipping down an inclined plane making an angle theta with the horizontal. The frictional force between the cylinder and the incline is