The vector sum of momenta before and after the collision is the same.
One way to visualize this is that if one of the colliding objects changes its momentum (mass x velocity) in one direction, then the other colliding object must needs change its momentum in the opposite direction - by the same amount, except for the direction.
Is it true that the law of conservation of engery states that momentum is in a collision
That law is called, precisely, the Law of Conservation of Momentum.
the total momentum after a collision must be equal the total momentum before the collision.
According to the law of conservation of momentum which states that in a closed system momentum before collision is equal to the momentum after collision.
momentum
Is it true that the law of conservation of engery states that momentum is in a collision
Is it true that the law of conservation of engery states that momentum is in a collision
That law is called, precisely, the Law of Conservation of Momentum.
the total momentum after a collision must be equal the total momentum before the collision.
According to the law of conservation of momentum which states that in a closed system momentum before collision is equal to the momentum after collision.
The law of conservation of momentum useful in analyzing the collision between two bodies because there is use to be the collision between the two bodies reason for that is law of conservation of momentum is that the total sum of momentum is equal means constant after the total sum of momentum of two bodies. so if you don't be the collision between two bodies you will not aware of the meaning of momentum.
momentum
Conservation of Momentum
By the Law of Conservation of Momentum, the total momentum after the collision must be the same as the total momentum before the collision.
False $manning boi the great$
The vector sum of momenta before and after the collision is the same. One way to visualize this is that if one of the colliding objects changes its momentum (mass x velocity) in one direction, then the other colliding object must needs change its momentum in the opposite direction - by the same amount, except for the direction.
There is a Law of Conservation of Momentum, which states that total momentum is always conserved. In this case, that means that - assuming no additional bodies are involved - the total momentum before the collision will be the same as the total momentum after the collision. It doesn't even matter whether the collision is elastic or not.