Two particles `A` and `B` of mass `3kg` and `4kg` moving on a smooth horizontal surface with speed `5m//s` and `2m//s` respectively collides each other. Coefficient of restitution is `e=(1)/(2)`, then

Velocity of `B` after collision

Two particles A and B of mass 3kg and 4kg moving on a smooth horizontal surface with speed 5m//s and 2m//s respectively collides each other. Coefficient of restitution is e=(1)/(2) , then Loss in kinetic energy in collision

Two particles A and B of masses 2kg and 3kg moving on a smooth horizontal surface with speed 1m//s and 2m//s collides perfectly inelastically, then

Two particles of mass 1 kg and 0.5 kg are moving in the same direction with speed of 2 m//s and 6 m/s respectively on a smooth horizontal surface. The speed of centre of mass of the system is

Two particles A and B of mass 3kg and 2kg moving with speed 10m//s and 5m//s as shown in figure. Kinetic energy of particle A when particle B has the maximum momentum

Block of mass m_(1) moving on a smooth horizontal surface,collides with a stationary block of mass m_(2) .The coefficient of restitution for the collision is e.The ratio (m_(1))/(m_(2)) for which m_(1) is at rest after collision is

Two particles A and B of mass 3kg and 2kg moving with speed 10m//s and 5m//s as shown in figure. Find the maximum momentum that particles A can have after collision with B .

Two particles A and B of mass 3kg and 2kg moving with speed 10m//s and 5m//s as shown in figure. Find the maximum momentum that particle B can have after collision with B .

Two particle of mass 2 kg and 1 kg are moving along the same straight line with speeds 2m//s and 5m//s respectively. What is the speed of the centre of mass of the system if both the particles are moving (a) in same direction (b) in opposite direction ?