A body of mass 10gm moving with velocity...

A body of mass 10gm moving with velocity `5ms^(-1)` collides with another body of mass 15gm moving with `3ms^(-1)` in the same direction. After collision if they stick and move together, the loss of kinetic energy of the system is

12J

`12 xx 10^(-3)J`

`24 xx 10^(-3)J`

`192 xx 10^(-3)J`

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

A body of mass 10 gm moving the velocity 5ms^(-1) collides with another body of mass 15gm moving with 3ms^(-1) in the same direction. After collision if they stick and move together, the loss of kinetic energy of the system is

A ball of mass m moving with a velocity collides head on elastically with another of the same mass m but moving with a - in the opposite direction). After the collision

A body of mass 100 gm moving with an initial velocity of 4ms^(-1) collides with another body of mass 150 gm moving in opposite direction with velocity 6 ms^(-1) . If the collision is perfectly inelastic, then after the collision,

A particle of mass m moving with velocity 2v collides with another particle of mass 3m moving with velocity v in the same direction. If it is perfect inelastic collision, the loss of K.E. of the system is

A body P moving with a velocity of 20kms^(-1) collides with another body of Q of the same mass at rest. After collision the velocity of Q if P comes to rest after collision is

A body of mass 10gm moving with velocity `5ms^(-1)` collides with another body of mass 15gm moving with `3ms^(-1)` in the same direction. After collision if they stick and move together, the loss of kinetic energy of the system is

Text Solution

Similar Questions

Recommended Questions