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Aim: How is momentum and energy conserved together?

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Presentation on theme: "Aim: How is momentum and energy conserved together?"— Presentation transcript:

1 Aim: How is momentum and energy conserved together?
Do Now: Quiz HW: Problem Set

2 Writing: Momentum of a Bullet
Why are bullets able to pass through objects much larger then themselves?

3 A Riddle… What do you get when you combine 2 bikes, two foam sticks and 2 idiots?

4 Conservation of Momentum
A Collision! Conservation of Momentum

5 Conservation of Momentum
In a system, the momentum of the individual components may change, but the total momentum of the system remains constant. Law of Conservation of Momentum: pbefore = pafter How is this useful?

6 Elastic Collisions Describe how pool balls behave when they collide.
Animation Two objects collide and SEPARATE without any sticking When the two objects have the same MASS, they TRADE MOMENTUM

7 Example #1 A 2 kilogram ball moving at +3 meters per second collides with a 3 kilogram ball at rest. Assuming that the 2 kilogram ball stops after the collision, calculate the velocity of the 3 kilogram ball after the collision.

8 Completely Inelastic Collision
What would be the opposite of an elastic collision? Animation Two objects collide and STICK together The MASSES of the objects COMBINE TO FORM A SINGLE MASS

9 Example #2 A 5 kilogram cart moving right at 6 meters per second collides with a 10 kilogram cart moving left at 6 meters per second. If the two carts stick together during the collision, determine their final velocity.

10 Collision Types Elastic Collision: Total Kinetic energy is conserved.
Pinitial = Pfinal… m1v1 + m2v2 = m’1v’1 + m’2v’2 Elastic: KE conserved! (1/2)mAv2A + (1/2)mBv2B = (1/2)mAv’2A + (1/2)mBv’2B

11 Collision Types Inelastic Collision: Kinetic energy NOT conserved.
Pinitial = Pfinal… m1v1 + m2v2 = (m1 + m2) v’ Inelastic: Inelastic collision: Kinetic energy is not conserved and energy is lost thermally or by other means ALWAYS!

12 4 Types of Collisions Elastic: Objects separate and KE conserved
Inelastic: Objects separate, but KE not conserved due to friction. Completely Inelastic: Objects stick together upon colliding and KE is not conserved. Explosion/Recoil: Objects are pushed apart and KE is not conserved.

13 Explosion/Recoil What happens to the man and the bullet in this case?
How is momentum conserved? What was his momentum before the recoil?

14 Explosion/Recoil How does direction matter in this example?
Two objects held together are PUSHED APART Animation BEGIN WITH A MOMENTUM OF ZERO Direction matters because velocity will be negative going left and positive to the right. This is how it sums up to be zero! How does direction matter in this example?

15 Example #1 A 100 kilogram cannon has a 5 kilogram cannonball inside it. When the cannonball is fired, what happens to the cannon? If the cannonball has an initial velocity of 20 meters per second, calculate the velocity of the cannon. The cannon will move backward

16 SUMMARY How do we calculate impulse from a graph?
Define the Law of Conservation of Momentum. Why does the direction of an object’s motion matter? Name and describe the two situations where momentum is conserved.

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