1. Warm Up 3 A student plans to design an experiment to determine which over-the-counter antacid is most effective in neutralizing stomach acid. Construct an appropriate and testable hypothesis.

2. Lab Momentum and Collisions

3. Lab Objectives To observe in a model system, the effects of momentum on collisions TSW will be able to describe momentum changes in 2 objects before and after a collision

4. Groups of up to 4 Supply master –Getting and returning supplies Recorder –Recording data and other writing Task master –Keeping the group on task Builder/operator –Sets up the equipment

5. Lab overview Create a tube out of your sheet of paper Place target marbles on ruler Place marble(s) into tube, pull out pencil Record observations in data table –How many marbles make it to the end –Relative speed after collision Answer questions 11-16

6. Warm Up 4 Based on the lab observation notes below, what might a student infer about the amounts of sodium and chlorine in the jar? –Teacher places piece of sodium into a bottle filled with chlorine and quickly puts the cover back on. –Sodium bursts into flames immediately, but burns only for a few seconds –All the chlorine is used in the reaction, but a small piece of sodium is left in the jar.

7. Agenda Lab Wrap-Up Notes Quiz – Momentum and Impulse

8. Lab follow up Was there a relationship between the number of balls hitting the target and the number of balls leaving the target?

9. Was there a difference in speed between small marbles and big marbles as targets?

10. Lab follow up What can you say about the amount of momentum right before and right after the collision?

11. Conservation of Momentum Similar to Conservation of Energy, the amount of momentum at the beginning is the same as at the end. Another way to describe Action-Reaction Pairs p 0 = p f

12. Types of collisions Elastic Collision –No loss of kinetic energy to friction or heat –No deformation –Perfect transfer of momentum Momentum before = Momentum after Examples: Billiard balls, air hockey

13. Types of collisions Inelastic Collision –Deformations occur –Kinetic energy is “lost” to friction and heat Momentum before = Momentum after Examples: Hitting a golf ball with a driver

15. Types of collisions Perfect Inelastic Collision –Two objects “join” and move together after collision –Kinetic energy is “lost” to friction and heat Momentum before = Momentum after –Remember to add the masses! Examples: Catching objects

16. Quiz

17. Warm Up 5 A student is boiling water as part of an investigation to observe changes in the state of matter. List 3 safety precautions the student should take during this part of the investigation.

18. Momentum and the Laws of Motion Can you have impulse without a net force? –Compare the definition of impulse with acceleration. –Can an object move or change direction without a net force?

19. Restatement of Newton’s 1 st Law of Motion: A net impulse is needed to change the momentum of an object.

20. Conservation of Momentum Momenta are vectors –Direction matters Net momentum is conserved before and after

21. You are shooting the cue ball at the 8-ball. After you hit the cue ball, it is traveling with a momentum of 8.0 kgm/s. The cue ball hits the 8-ball in an elastic collision. The 8-ball rolls away and the cue ball stops. –What is the momentum of the 8-ball? –What is the net momentum before the impact? –What is the net momentum after the impact?

23. Bouncing Which has the greatest change in momentum? ABC

24. Bouncing Bouncing an object straight back produces the largest change in momentum Initial = +10 kgm/s Final = Impulse = p f – p 0 Impulse = – 10 kgm/s Impulse = kgm/s!

25. Turbines use this to increase efficiency http://www.greenenergyact.com/language/en-US/Solutions/Hydro.aspx

26. Gizmo: Air Track