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A small ball of mass 2.00 kilograms is moving at a velocity 1.50 meters/second. It hits a larger, stationary ball of mass 5.00 kilograms. What is the kinetic energy of the system after the collision if the collision is elastic?

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1 vote

Answer:

2.25 jouls

Step-by-step explanation:

User Cristiano Ghersi
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5 votes

The kinetic energy of the small ball before the collision is

KE = (1/2) (mass) (speed)²

= (1/2) (2 kg) (1.5 m/s)

= (1 kg) (2.25 m²/s²)

= 2.25 joules.

Now is a good time to review the Law of Conservation of Energy:

Energy is never created or destroyed.
If it seems that some energy disappeared,
it actually had to go somewhere.
And if it seems like some energy magically appeared,
it actually had to come from somewhere.

The small ball has 2.25 joules of kinetic energy before the collision.
If the small ball doesn't have a jet engine on it or a hamster inside,
and does not stop briefly to eat spinach, then there won't be any
more kinetic energy than that after the collision. The large ball
and the small ball will just have to share the same 2.25 joules.

User Daniel Griscom
by
7.9k points

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