355307 During inelastic collision between two bodies, which of the following quantities always remain conserved?

355308 Assertion :
The principle of conservation of energy valid for inelastic collision.
Reason :
The principle of conservation of energy holds good in both elastic and inelastic collisions. In case of inelastic collision kinetic energy before and after collision is not same.

355309 Two identical mass \(M\) moving with velocity \(u_{1}\) and \(u_{2}\) collide perfectly inelastically. The loss in energy is

355310 Two bodies \({A}\) and \({B}\) of same mass undergo completely inelastic one dimensional collision. The body \({A}\) moves with velocity \({v_{1}}\) while body \({B}\) is at rest before collision. The velocity of the system after collision is \({v_{2}}\). The ratio \({v_{1}: v_{2}}\) is

355311 A metal ball of mass 2 \(kg\) moving with speed of 36 \(km/h\) has a collision with a stationary balls of mass 3 \(kg\). If after collision, both the ball move together, the loss in kinetic energy due to collision is:

355307 During inelastic collision between two bodies, which of the following quantities always remain conserved?

355308 Assertion :
The principle of conservation of energy valid for inelastic collision.
Reason :
The principle of conservation of energy holds good in both elastic and inelastic collisions. In case of inelastic collision kinetic energy before and after collision is not same.

355309 Two identical mass \(M\) moving with velocity \(u_{1}\) and \(u_{2}\) collide perfectly inelastically. The loss in energy is

355310 Two bodies \({A}\) and \({B}\) of same mass undergo completely inelastic one dimensional collision. The body \({A}\) moves with velocity \({v_{1}}\) while body \({B}\) is at rest before collision. The velocity of the system after collision is \({v_{2}}\). The ratio \({v_{1}: v_{2}}\) is

355311 A metal ball of mass 2 \(kg\) moving with speed of 36 \(km/h\) has a collision with a stationary balls of mass 3 \(kg\). If after collision, both the ball move together, the loss in kinetic energy due to collision is:

355307 During inelastic collision between two bodies, which of the following quantities always remain conserved?

355308 Assertion :
The principle of conservation of energy valid for inelastic collision.
Reason :
The principle of conservation of energy holds good in both elastic and inelastic collisions. In case of inelastic collision kinetic energy before and after collision is not same.

355309 Two identical mass \(M\) moving with velocity \(u_{1}\) and \(u_{2}\) collide perfectly inelastically. The loss in energy is

355310 Two bodies \({A}\) and \({B}\) of same mass undergo completely inelastic one dimensional collision. The body \({A}\) moves with velocity \({v_{1}}\) while body \({B}\) is at rest before collision. The velocity of the system after collision is \({v_{2}}\). The ratio \({v_{1}: v_{2}}\) is

355311 A metal ball of mass 2 \(kg\) moving with speed of 36 \(km/h\) has a collision with a stationary balls of mass 3 \(kg\). If after collision, both the ball move together, the loss in kinetic energy due to collision is:

355307 During inelastic collision between two bodies, which of the following quantities always remain conserved?

355308 Assertion :
The principle of conservation of energy valid for inelastic collision.
Reason :
The principle of conservation of energy holds good in both elastic and inelastic collisions. In case of inelastic collision kinetic energy before and after collision is not same.

355309 Two identical mass \(M\) moving with velocity \(u_{1}\) and \(u_{2}\) collide perfectly inelastically. The loss in energy is

355310 Two bodies \({A}\) and \({B}\) of same mass undergo completely inelastic one dimensional collision. The body \({A}\) moves with velocity \({v_{1}}\) while body \({B}\) is at rest before collision. The velocity of the system after collision is \({v_{2}}\). The ratio \({v_{1}: v_{2}}\) is

355311 A metal ball of mass 2 \(kg\) moving with speed of 36 \(km/h\) has a collision with a stationary balls of mass 3 \(kg\). If after collision, both the ball move together, the loss in kinetic energy due to collision is:

355307 During inelastic collision between two bodies, which of the following quantities always remain conserved?

355308 Assertion :
The principle of conservation of energy valid for inelastic collision.
Reason :
The principle of conservation of energy holds good in both elastic and inelastic collisions. In case of inelastic collision kinetic energy before and after collision is not same.

355309 Two identical mass \(M\) moving with velocity \(u_{1}\) and \(u_{2}\) collide perfectly inelastically. The loss in energy is

355310 Two bodies \({A}\) and \({B}\) of same mass undergo completely inelastic one dimensional collision. The body \({A}\) moves with velocity \({v_{1}}\) while body \({B}\) is at rest before collision. The velocity of the system after collision is \({v_{2}}\). The ratio \({v_{1}: v_{2}}\) is

355311 A metal ball of mass 2 \(kg\) moving with speed of 36 \(km/h\) has a collision with a stationary balls of mass 3 \(kg\). If after collision, both the ball move together, the loss in kinetic energy due to collision is: