A moving `2 kg` ball with a speed of `2 ms^(-1)` hits obliquely a stationary identical ball inelastically as shown. If the first ball move away with angle `alpha = 30^(@)` to the original path, find the total kinetic energy lost 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 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 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 ball moving with a velocity of 12ms^(-1) collides with another identical stationary ball . After the collision they move as shown in figure . Find the speed of the balls after the collision . Also , decide whether the condition is elastic or not .

A ball is thrown downwards with a speed of 20 ms^(–1) from top of a building 150m high and simultaneously another ball is thrown vertically upwards with a speed of 30 ms^(–1) from the foot of the building. Find the time after which both the balls will meet - (g = 10 ms^(–2))

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 cricket ball of mass 150 g moving with a speed of 126 km/h hits at the middle of the bat , held firmly at its position by the batsman . The ball moves straight back to the bowler after hitting the bat . Assuming that collision between ball and bat is completely elastic and the two remain in contact for 0.001s s , the force that the batsman had to apply tohold the bat firmly at its place would be

Two balls of masses m_(1), m_(2) and speeds v_(1) and v_(2) collide at right angle . The maximum amount of kinetic energy loss due ot inelastic collision is ___.