A ball is given a velocity `v` and angular velocity such that the ball rolls purely on a plank whose upper surface is rough enough to prevent slipping but lower surface contact with the ground is smooth. No other force is acting on system.

A cylinder executes pure rolling without slipping with a constant velocity on a plank, whose upper surface is rough enough, but lower surface is smooth. The plank is kept at rest on a smooth horizontal surface by the application of an external force F . Choose the correct alternative:

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 sphere with a velocity (of centre of mass) v and angular velocity omega is gently placed on a rough horizontal surface. The frictional force on the sphere :

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.

During rolling without slipping, what is the velocity of the point in contact with the surface.

A board is moving with velocity v on a smoother horizontal plane. The upper surface of the board is rough on which a ball falls with velocity v and rebounds with velocity (v)/(2) . The mass of the board is same as that of ball. After the collision, the board comes to state of rest. The co-efficient of friction between the board and the ball is

A ball is projected upwards from a height h above the surface of the earth with velocity v. The time at which the ball strikes the ground is

.A ball is projected upwards from a height h above the surface of the earth with velocity v .The time at which the ball strikes the ground is

A solid ball of mass m and radius R spinning with angular velocity omega falls on a horizontal slab of mass M with rough upper surface (coefficient of friction mu ) and smooth lower surface. Immediately after collision, the normal component of velocity of the ball becomes half of its value just before collision and it stops spinning. Find the velocity of the sphere in horizontal direction immediately after the impact (given : Romega =5 ).