A sphere is moving with velocity vector `2hati+2hatj` immediately before it hits a vertical wall. The wall is parallel to `hatj` and the coefficient of restitution of the sphere and the wall is `e=1/2`. Find the velocity of the sphere after it hits the wall?
A.`hati - hatj ` B.`-hati + 2 hatj` C.`- hati - hatj` D.`2 hati - hatj`

A smooth sphere is moving on a horizontal surface with velocity vector 2hati+2hatj immediately before it hits a vertical wall. The wall is parallel to hatj and the coefficient of restitution of the sphere and the wall is e=1/2 . Find the velocity of the sphere after it hits the wall?

A smooth sphere is moving on a horizontal surface with velocity vector 3hat(i) + hat(j) immediately before it hits a vertical wall. The wall is parallel to the vector hat(j) and the coefficient of restitution between the wall and sphere is (1)/(3) . The velocity vector of the sphere after it hits the wall is :-

A small sphere of mass 1kg is moving with a velocity (6hati+hatj)m//s . It hits a fixed smooth wall and rebounds with velocity (4hati+hatj)m//s . The coefficient of restitution between the sphere and the wall is

A small sphere of mass m =1 kg is moving with a velocity (4hati-hatj) m//s . it hits a fixed smooth wall and rebounds with velocity (hati + 3hatj) m//s . The coefficient of restitution between the sphere and the wall is n//16 . Find the value of n .

A smooth sphere of mass m is moving on a horizontal plane with a velocity (3hati +hat j) . It collides with smooth a vertical wall which is parallel to the vector hatj . If coefficient of restitution e = 1/2 then impulse that acts on the sphere is

A smooth sphere of mass m is moving on a horizontal plane with a velocity 3hati+hatj when it collides with a vertical wall which is parallel to the hatj vector. If the coefficient of restitution between the sphere and the wall is 1//2 . find a. the velocity of the sphere after impact, b. the loss in kinetic energy caused by the impact. c. the impulse that acts on the sphere.

Find the projection of the vector hati-2hatj+hatk on the vector 4hati-4hatj+7hatk .

The component of vector A=2hati+3hatj along the vector hati+hatj is

The component of vector A=2hati+3hatj along the vector hati+hatj is

A particle moving with velocity (2hati-3hatj) m/s collides with a surface at rest in xz–plane as shown in figure and moves with velocity (2hati+2hatj) m/s after collision. Then coefficient of restitution is :