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MOMENTUM AND COLLISIONS. Momentum is similar to inertia - the tendency of an object to remain at a constant velocity. Where as inertia depends only.

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Presentation on theme: "MOMENTUM AND COLLISIONS. Momentum is similar to inertia - the tendency of an object to remain at a constant velocity. Where as inertia depends only."— Presentation transcript:

1 MOMENTUM AND COLLISIONS

2

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4 Momentum is similar to inertia - the tendency of an object to remain at a constant velocity. Where as inertia depends only on mass, momentum depends on mass AND velocity. Consider this: A tennis ball traveling at 10 m/s and a medicine ball traveling at 10 m/s. Which one is more difficult to stop? OK now this one: A baseball traveling at 5 m/s and a baseball traveling at 50 m/s. Which one is harder to stop?

5 Example: A baseball pitcher hurls a 0.45 kg ball at 32 m/s. The batter crushes it and the ball leaves the bat at 48 m/s in the opposite direction. What was the ball’s change in momentum?

6 The Law of Conservation of Momentum Momentum is a useful quantity because in a closed system it is always conserved. This means that in any collision, the total momentum before the collision must equal the total momentum after the collision. p initial = p final for a collision involving two bodies,

7 First we are going to consider linear 1-D interactions. There are 3 general types of these collisions: BeforeAfter m 1i = m 2i =m 1f = m 2f = v 1i = v 2i = v 1f = v 2f =

8 BeforeAfter m 1i = m 2i =m total = v 1i = v 2i = v f =

9 BeforeAfter m total =m 1f = m 2f = v i = v 1f = v 2f =

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