Collisions basically include every interaction § 8.3–8.4.

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Presentation transcript:

Collisions basically include every interaction § 8.3–8.4

All Interactions Interacting objects apply equal and opposite forces (and impulses) to each other Total momentum is conserved

Elastic Collisions Objects bounce apart after collision Some momentum is transferred from one object to another Kinetic energy is also conserved Relative speed is conserved

Inelastic Collisions Kinetic energy is not conserved Momentum is still conserved

Totally Inelastic Collisions Objects cling together after collision Same final velocity Total momentum is maintained in the coupled mass

Whiteboard work Initial conditions m 1, v 1, m 2, v 2 What is final velocity v f of a totally inelastic collision?

Board Question Two cars of equal mass are traveling opposite directions at speed v. They collide completely inelastically and stick together. What is the final speed of the combined smashed mass?

Board Question Two cars of equal mass are traveling opposite directions at speed v. They collide completely elastically. What is the final velocity of the car on the left?

Board Question A car of mass M traveling to the left collides with a car of mass M initially stationary but free to move. The collide totally inelastically and stick together. What is the final velocity of the combined vehicles?

Board Question Two cars of unequal mass travel at different speeds in opposite directions as indicated. They collide totally inelastically and stick together. What is the final velocity of the vehicle on the left?

Example Problem A car of mass M traveling to the left collides with a car of mass M initially stationary but free to move. The collide completely elastically. What is the final velocity of the initially stationary car?

Example Problem Two asteroids of equal mass collide with a glancing blow. Asteroid A, which was initially traveling at 40.0 m/s, is deflected 30.0° from its original direction, while asteroid B, which was initially at rest, travels at 45.0° to the original direction of A. a.Find the speed of each asteroid after the collision. b.What kind of collision is this? c.What fraction of the original kinetic energy of asteroid A dissipates during the collision? 30° 45° A B A

Example Problem a.What kind of collision is this? b.Compute the kinetic energy of the bullet and pendulum immediately after the bullet becomes embedded in the pendulum. A 12.0-g rifle bullet is fired with a speed of 380 m/s into a wood block pendulum with mass 6.00 kg, suspended from two cords 70.0 cm long. The bullet embeds in the block, and the block swings upward after impact.

Example Problem A 12.0-g rifle bullet is fired with a speed of 380 m/s into a wood block pendulum with mass 6.00 kg, suspended from two cords 70.0 cm long. The bullet embeds in the block, and the block swings upward after impact. c.Compute the vertical height through which the pendulum rises. d.What fraction of the initial kinetic energy of the system was lost in the collision?