A 60 kg man skating with a speed of 10 m/s collides with a 40 kg skater ast rest and they cling to each other. Find the loss of kinetic energy duriung the collision.

A 60 kg man skating with a speed of 10 m/s collides with a 40 kg skater at rest and they cling to each other. Find the loss of kinetic energy during the collision.

A 60 kg man skating with a speed of 10 m/s collides with a 40 kg skater at rest and they cling to each other. Find the loss of kinetic energy during the collision.

A block of mass 1.2 kg moving at a speed of 20 cm /s collides head on with a similar block kept at rest. The coefficient of restitution is 3/5. Find the loss of kinetic energy during the collision.

A block of mass 1.2 kg moving at a speed of 20 cm /s collides head on with a similar block kept at rest. The coefficient of restitution is 3/5. Find the loss of kinetic energy during the collision.

A block of mass 1.2 kg moving at a speed of 20 cm /s collides head on with a similar block kept at est. The coefficient of restitution is 3/5. findthe loss of kinetic energy during the collision.

A block of mass 2kg moving with certain velocity collides with a block of mass 3kg at rest ,After collision the blocks move togather.Find the loss of K.E in the collision.

A block of mass 2.0 kg moving at 2.0 m/s collides head on with another block of equal mass kept at rest. Find the maximum possible loss in kinetic energy due to the collision.

A mass of 20 kg moving with a speed of 10 m / s collides with another stationary mass of . 5kg As a result of the collision, the two masses stick together. The kinetic energy of the composite mass will be

A block moves with a certain speed and collides with another identical block kept at rest . There is maximum possible loss of kinetic energy in this collision . Find the ratio initial kinetic energy of the sustem to that with final kinetic enegy of the system .