Velocity of the centre of a small cylinder is `v`. There is no slipping anywhere. The velocity of the centre of the larger cylinder is

Give the location of the centre of mass of a :- cylinder.

In the figure the plank resting on two cylinders is horizontal. The plank is pulled to the right such that the centre of smaller cylinder moves with a constant velocity v . Friction is large enough to prevent slipping at all surfaces. Find- (a) The velocity of the centre of larger cylinder. (b) The ratio of accelerations of the points of contact of the two cylinders with the plank.

A string of negligible thicknes is wrapped several times around a cylinder kept on a rough horizontal surface. A man standing at a distance l from the cylinder holds one end of the sitting an pulls the cylinder towards him figure. There is no slipping anywhere. The length of the string passed through the hand of the man whicle the cylinder reaches his hands is

A string of negligible thicknes is wrapped several times around a cylinder kept on a rough horizontal surface. A man standing at a distance l from the cylinder holds one end of the sitting an pulls the cylinder towards him figure. There is no slipping anywhere. The length of the string passed through the hand of the man whicle the cylinder reaches his hands is

A string of negligible thicknes is wrapped several times around a cylinder kept on a rough horizontal surface. A man standing at a distance l from the cylinder holds one end of the sitting an pulls the cylinder towards him figure. There is no slipping anywhere. The length of the string passed through the hand of the man whicle the cylinder reaches his hands is

A ladder placed on a smooth floor slips. If at a given instant the velocity with which the ladder is slipping on the floor is v_1 , and the velocity of that part of ladder which is touching the wall is v_1 , then the velocity of the centre of the ladder at that instant is:

A ladder placed on a smooth floor slips. If at a given instant the velocity with which the ladder is slipping on the floor is v_1 , and the velocity of that part of ladder which is touching the wall is v_1 , then the velocity of the centre of the ladder at that instant is:

A wheel of bicycle is rolling without slipping on a level road. The velocity of the centre of mass is v_(CM) , then true statement is

A wheel of bicycle is rolling without slipping on a level road. The velocity of the centre of mass is v_(CM) , then true statement is

A wheel of bicycle is rolling without slipping on a level road. The velocity of the centre of mass is v_(CM) , then true statement is