14. ConcepTest 7.9bGoing Bowling II 14. ConcepTest 7.9b Going Bowling II p p stopping distance A bowling ball and a ping-pong ball are rolling toward you.

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14. ConcepTest 7.9bGoing Bowling II 14. ConcepTest 7.9b Going Bowling II p p stopping distance A bowling ball and a ping-pong ball are rolling toward you with the same momentum. If you exert the same force to stop each one, for which is the stopping distance greater? 1) the bowling ball 2) same distance for both 3) the ping-pong ball 4) impossible to say

15. ConcepTest 7.10aElastic Collisions I 15. ConcepTest 7.10a Elastic Collisions I v 2 v 1 at rest 1) situation 1 2) situation 2 3) both the same Consider two elastic collisions: 1) a golf ball with speed v hits a stationary bowling ball head-on. 2) a bowling ball with speed v hits a stationary golf ball head-on. In which case does the golf ball have the greater speed after the collision?

You tee up a golf ball and drive it down the fairway. Assume that the collision of the golf club and ball is elastic. When the ball leaves the tee, how does its speed compare to the speed of the golf club? 1) greater than 2) less than 3) equal to 16. ConcepTest 7.11Golf Anyone? 16. ConcepTest 7.11 Golf Anyone?

17. ConcepTest 7.12aInelastic Collisions I 17. ConcepTest 7.12a Inelastic Collisions I vfvf vivi M M M M A box slides with initial velocity 10 m/s on a frictionless surface and collides inelastically with an identical box. The boxes stick together after the collision. What is the final velocity? 1) 10 m/s 2) 20 m/s 3) 0 m/s 4) 15 m/s 5) 5 m/s

18. ConcepTest 7.12bInelastic Collisions II 18. ConcepTest 7.12b Inelastic Collisions II vivi vfvf On a frictionless surface, a sliding box collides and sticks to a second identical box which is initially at rest. What is the final KE of the system in terms of the initial KE? 1) KE f = KE i 2) KE f = KE i / 4 3) KE f = KE i /  2 4) KE f = KE i / 2 5) KE f =  2 KE i

19. ConcepTest 7.13aNuclear Fission I 19. ConcepTest 7.13a Nuclear Fission I A uranium nucleus (at rest) undergoes fission and splits into two fragments, one heavy and the other light. Which fragment has the greater momentum? 1) the heavy one 2) the light one 3) both have the same momentum 4) impossible to say 1 2