A body projected at an angle `alpha` to the horizontal lands at the same point after hitting a verticle wall. This time it makes an angle `beta` with the horizontal. Show that `e tan beta=tan alpha` where e is the coefficient of restitution between the body and the wall.

A particle is thrown with speed u at an angle alpha with horizontal from the ground. After how much time, the velocity of particle will make an angle beta with horizontal.

Particle "A" is released from a point "P" on a smooth inclined plane inclined at an angle alpha with the horizontal.At the same instant another particle "B" is projected with initial velocity 'u' making an angle beta 'with the horizontal.Both the particles meet again on the inclined plane.the relation between ' alpha and beta is 1) alpha+beta=(pi)/(6) 2) alpha+beta=(pi)/(4) 3) alpha+beta=(pi)/(3) 4) alpha+beta=(pi)/(2)

A ball strikes a smooth horizontal floor at an angle alpha with the normal to the surface and after rebounding from the floor , ball moves at an angle beta with the normal . Find the relation between alpha and beta if coefficient of elasticity is e .

A ball is projected from a given point with velocity u at some angle with the horizontal and after hitting a vertical wall returns to the same point. Show that the distance of the point from the wall must be less than (eu^2)/((1+e)g) , where e is the coefficient of restitution.

A ladder rests against a wall at an angle alpha to the horizontal, its foot is pulled away from the wall through a distance a, so that it slides a distance b down the wall making an angle beta with the horizontal. Show that a = b tan 1/2(alpha + beta) .

A particle I projected at an angle of elevation alpha after time t it makes an angle beta with horizontal. The velocity of projection is

A particle is thrown with the speed u at an angle alpha with the horizontal. When the particle makes an angle beta the horizontal , its speed will be

An inelastic ball is projetced with a velocity 'u' at an angle 'alpha' to the horizontal, towards a wall distant 'd' from the point of projection. After collision the ball returns to the point of projection (Co-efficient of restitution between sphere and wall is 'e' ) If the line joining the point of projection and the point of impact makes an angle 'theta' with the horizontal, then tan theta is