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PHYS16 – Lecture 21 Ch. 9 Momentum and Collisions.

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1 PHYS16 – Lecture 21 Ch. 9 Momentum and Collisions

2 Linear Momentum – Related to Newton’s second law – Rocket Propulsion Momentum Conservation Collisions – Elastic vs. Inelastic – 1D and 2D Impulse Ch. 9 Momentum & Collisions

3 Momentum pre-question Consider two carts on a frictionless air track with masses m and 2m. If you push the lower mass cart for 3 s and then the other cart for the same length of time and with the same force, which cart undergoes the larger change in momentum? A)Cart with mass m B)Cart with mass 2m C)Change in momentum is the same for both D)There is not enough information

4 Solve Problems with Collisions Read problem carefully! Draw a picture. Write down given quantities and what you want to solve for. Find the correct equation (conservation of momentum and possibly conservation of energy). Do the math and solve!

5 Perfectly Elastic Collision A 1.00-kg ball traveling at 3.00 m/s collides with a 3.00-kg ball traveling at 0.500 m/s. If after a perfectly elastic collision the 1.00-kg ball is traveling at -0.750 m/s, how fast is the second ball going? How do we check to see if it is perfectly elastic?

6 Perfectly Inelastic Collision How fast would a 5-g fly have to be traveling to slow a 1900-kg car traveling at 55 mph to 50 mph if the fly just splatted across the windshield?

7 Superball vs. Basketball Drop a superball and basketball together. How high does the superball bounce? Homework problem…

8 For Problems with multiple parts… Follow the steps for solving problems as before When you get to what equation to use break the problem into parts – usually chronologically – and solve each part Then do the math as before…

9 Click-Clack In a click-clack if all balls have equal mass and I take one ball out and put it at height 4 m, how high should the ball on the other side go? A) 4 m B) 2 m C) 1 m D) 0 m E) Not enough information http://www.brucegray.com/images/clickclack.jpg

10 Click-Clack http://www.brucegray.com/images/clickclack.jpg

11 Click-Clack In a click-clack if all balls have equal mass and I take one ball out and put it at height 4 m, how high should the ball on the other side go? A) 4 m B) 2 m C) 1 m D) 0 m E) Not enough information http://www.brucegray.com/images/clickclack.jpg

12 Smith & Wesson On homework there is a problem about how far a chair slides when a bullet gets shot into it. What demo does this remind you of? What are the parts you will need to know?

13 2D collisions – How to solve problems Separate vectors into x and y components Solve two equations – Conservation of momentum in x and – Conservation of momentum in y If perfectly elastic get a third equation – Conservation of energy

14 2D Collisions Need to add 2D vectors Assume masses of two objects equal – Before – After A B C

15 2D Collisions – Predict vectors, assume masses are equal A B

16 2D Collision problem A 0.25 kg hockey puck traveling at 1.5 m/s strikes a stationary puck with the same mass. If the first puck exits at 30 degrees and 0.75 m/s, what is the direction of the second puck?

17 3. Impulse Impulse describes the change in momentum – Good for describing what happens during a collision Example: – What is momentum of 0.5 kg ball dropped from 5 m just before it hits the floor? – If the velocity after it hits the floor is +8 m/s upward, what is the impulse? – If the interaction lasts 0.01 s, what was the average Force?

18 During Collisions… Baseball Soccer ball Water balloon? http://www.youtube.com/watch?v=pQ9NiazPYI8 http://www.youtube.com/watch?v=90VyvOhPmA0&NR=1&feature=fvwp http://www.youtube.com/watch?v=jjE8SQG8AwI&feature=related

19 Discussion Why does an airbag reduce injury? What is better in bungee jumping- a stiff cable that won’t break at high forces or a stretchy cable? Why should a boxer “ride the punch” and not stiffen her neck muscles?

20 Momentum pre-question A 0.50 kg ball accelerates from rest at 10.0 m/s 2 for 2.0 s. It then collides with and sticks to a 1.0 kg ball that is initially at rest. After the collision, how fast are the balls going? A) 3.3 m/s B) 6.7 m/s C) 10 m/s D) 15 m/s E) None of the above.

21 Momentum pre-question Consider two carts on a frictionless air track with masses m and 2m. If you push the lower mass cart for 3 s and then the other cart for the same length of time and with the same force, which cart undergoes the larger change in momentum? A)Cart with mass m B)Cart with mass 2m C)Change in momentum is the same for both D)There is not enough information

22 Conclusions Momentum Momentum Conservation Elastic vs. Inelastic Collisions Impulse

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