A ball is suspended from the top of a cart by a string of length 1.0m. The cart and the ball are initially moving to the right at constant speed V, as shown in figure I. The cart comes to rest after colliding and sticking to a fixed bumper, as in figure II. The suspended ball swings through a maximum angle `60^@`. The initial speed V is `(take`g=10(m)/(s^2)`)

A ball is suspended from the top of a cart by a light string of length 1.0 m. The cart and the ball are initially moving to the right at constant speed V, as shown in figure I. The cart comes to rest after colliding and sticking to a fixed bumper, as in figure II. The suspended ball swings through a maximum angle 60°. The initial speed V is (take g = 10 m//s^(2) ) (neglect friction)

A bob is suspended from a carne by a cable of length l=5m . The carne and load are moving at a constant speed v_(0) The crane is stopped by a bumper and the cable swings out an angle of 60^(@) . Find the initial speed v_(0).(g=9.8m//s^(2))

A bob is suspended from a crane by a cable of length l=5 m . The crane and load are moving at a constant speed v_(0) . The crane is stopped by a bumper and the bob on the cable swings out an angle of 60^(@) . The initial speed v_(0) is (g=9.8 m//s^(2))

A ball of mass m moving at a speed v collides with another ball of mass 3m at rest. The lighter block comes to rest after collisoin. The coefficient of restitution is

A ball B is suspended from a string of length l attached to a cart A, which may roll on a frictionless surface. Initially the cart is at rest and the ball is given a horizontal velocity v_(0) . Determine the maximum height reached by the ball.

A ball B is suspended from a string of length l attached to a cart A, which may roll on a frictionless surface. Initially the cart is at rest and the ball is given a horizontal velocity v_(0) . Determine the velocity of B as it reaches the maximum height.

A ball is moving with velocity 2m//s towards a heavy wall moving towards the ball with speed 1m//s as shown in figure. Assuming collision to be elastic, find the velocity of ball immediately after the collision.

A shell of mass 1kg is projected with velocity 20m//s at an angle 60^@ with horizontal. It collides inelastically with a ball of mass 1kg which is suspended through a thread of length 1m . The other end of the thread is attached to the ceiling of a trolley of mass 4/3kg as shown in figure. Initially the trolley is stationary and it is free to move along horizontal rails wihtout any friction. What is the maximum deflection of the thread with vertical? String does not slack. Take g=10m//s^2 .

A ball P moving with a speed of v ms collides directly with another identical ball Q moving with a speed 10ms' in the opposite direction. P comes to rest after the collision. If the coefficient of restitution is 0.6 the value of v is