A cylinder is rolling without slipping o...

A cylinder is rolling without slipping on a horizontal plane `P`. The friction between the plank `P` and the cylinder is sufficient for no slipping. The coefficient of friction between the plank and the ground surface is zero. Initially, `P` is attached with a string `S` as shown in the figure. If the string is now burned, then.

Similar Questions

Explore conceptually related problems

A sphere S rolls without slipping with a constant speed on a plank P . The friction between the upper surface of P and the sphere is sufficient to prevent slipping, while the lower surface of P is smooth and rest on the ground. Initially P is fixed on the ground by a pin N . If N is suddenly removed

A sphere S rolls without slipping moving with a constant speed on a plank P . The friction between the upper surface of P and the sphere is sufficient to prevent slipping, while the lower surface of P is smooth and rest on the ground. Initially P is fixed on the ground by a pin N . If N is suddenly removed

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

A cylinder of radius R is to roll without slipping between two planks as shown in the figure. Then

A cylinder of radius R is to roll without slippoing between two planks as shown in the figure. Then

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 '0' then the minimum coefficient of friction required to support pure rolling is

Similar Questions

Recommended Questions