A smooth sphere A of mass m collides elastically with an identical sphere B at rest. The velocity of A before collision is `8 m//s` in a direction making `60^(@)` with the line of centres at the time of impact.

A ball A moving with a velocity 5 m/s collides elastically with another identical ball at rest such that the velocity of A makes an angle of 30^(@) with the line joining the centres of the balls. Then consider following statements : (A) Balls A an B move at right angles after collision (B) kinetic energy is conserved (C) speed of A after collision is (5/2) m/s (D) speed of B after collision is ( 5sqrt(3)//2 ) m/s Select correct alternative :-

A sphere of steel of mass 1 kg moving with a velocity of 12m/s ,along X-axis collides elastically with a stationary sphere after the collision is 8 m/s and is moving at an angle of 45^(@) with X -axis , find the magnitude and direction of the second sphere after the collision .

A spherical ball of mass 1 kg moving with a uniform speed of 1 m//s collides symmetrically with two identical spherical balls of mass 1 kg each at rest touching each other. If the two balls move with 0.5 m//s in two directions at the same angle of 60^(@) with the direction of the first ball, the loss of kinetic energy on account of the collision is :-

A disk A of radious r moving on perfectly smooth surface at a speed v undergoes an elastic collision with an identical stationary disk B. Find the velocity of the disk B after collision if the impact parameter is r//2 as shown in the figure :-

A sphere of mass 4 kg collides with a wall, at an angle of 30^(@) with the wall and rebounds in the direction making an angle of 60^(@) with its original direction of motion. Find the force on the wall if the ball remains in contact with the wall for 0.1s. The initial and final velocities are the same, equal to 1ms^(-1)

A mass 'm' moves with a velocity 'v' and collides inelastieally with another identical mass . After collision the 1^(st) mass moves with velocity v/sqrt3 in a direction perpendicular to the initial direction of motion. Find the speed of the 2^(nd) mass after collision. undersetunderset ((before),(collision))(m)(*rarr) underset(m)* uparrow v//sqrt3 underset((after),(collision):)

A ball collides elastically with a massive wall moving towards it with a velocity of v as shown. The collision occurs at a height of h above ground level and the velocity of the ball just before collision is 2v in horizontal direction. The distance between the foot of the wall and the point on the ground where the ball lands, at the instant the ball lands, will be :

A ball of mass m , moving with a speed 2v_(0) collides inelastically ( e gt 0) with an identical ball at rest . Show that (a) For head - on collision , both the balls move forward . (b) For a general collision , the angle between the two velocities of scattered balls is less than 90^(@)

A particle of mass 2kg moving with a velocity 5hatim//s collides head-on with another particle of mass 3kg moving with a velocity -2hatim//s . After the collision the first particle has speed of 1.6m//s in negative x-direction, Find (a) velocity of the centre of mass after the collision, (b) velocity of the second particle after the collision. (c) coefficient of restitution.

A ball moving vertically downward with a speed of 10 m//s collides with a platform. The platform moves with a velocity of 5 m//s in downward direction. If e = 0.8 , find the speed (in m//s ) of the ball just after collision.