Chapter 7 Momentum and Impulse PDF

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Chapter 7 Momentum and Impulse...

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Chapter 7: Momentum and Impulse 1. When a baseball bat hits the ball, the impulse delivered to the ball is increased by A. “follow through” on the swing. B. rapidly stopping the bat after impact. C. letting the bat recoil upon impact. D. impulse cannot be changed. Answer: A 2. One form of the proper metric unit for momentum is A. Nt·sec. B. Kg·m. C. Kg·m/s2. D. Joule. Answer: A 3. Suppose you are out on a frozen lake, where there is no friction. Which of the following would start you moving towards the shore? A. Shouting at someone on the shore. B. Removing a shoe and throwing it towards the shore. C. Removing a shoe and throwing it away from the shore. D. None of these would work. Answer: C 4. A gun is made of a super-low weight but strong material. The bullet for the gun is more massive than the gun itself. For such a gun A. recoil problems would be lessened. B. the gun, if unsupported, would have a recoil velocity higher than the bullet velocity. C. conservation of momentum is not satisfied. D. the bullet would go faster with less powder. Answer: B 5. The purpose of an air bag in an auto is to A. reduce your speed just before a collision. B. increase the force applied to you during a collision. C. increase your body’s stopping time during a collision. D. reduce the need for good brakes on your car. Answer: C

6. A bowling ball, moving to the east at a speed of 1.4 m/s, collides head-on with a stationary beach ball of the same diameter but less than one twentieth the mass. After the collision, the beach ball moves with a speed of 1.6 m/s. Which of the following is then true? A. The bowling ball has a velocity of slightly under 1.4 m/s, to the east. B. The beach ball has more momentum than the bowling ball. C. The bowling ball recoils to the west with nearly the same speed as before the collision. D. The bowling ball and the beach ball have the same momentum after the collision. Answer: A 7. Which of the following mathematical expressions should be used to calculate the momentum of an auto? A. weight × speed B. mass × acceleration C. mass × velocity D. weight × force Answer: C 8. The momentum of a truck is increased by a factor of 4; its weight does not change. Thus, A. its acceleration is doubled. B. its speed increased by a factor of 4. C. its speed doubled. D. its kinetic energy doubled. Answer: B 9. A quantity which is conserved in the collision of a car and a truck is A. kinetic energy. B. nervous energy. C. momentum of the car. D. total momentum. E. momentum of the truck. Answer: D 10. A ping-pong ball is dropped vertically, onto a stationary bowling ball resting on the floor. Which of the balls experiences the greater force as a result of the collision? A. Neither, both experience forces of the same size. B. The ping-pong ball. C. The bowling ball. D. It’s impossible to tell from this data. Answer: A

11. A tennis ball bounces off a brick wall. Which of the following is true? A. The total momentum of the ball, wall, and earth is conserved in this process. B. The momentum of the ball is conserved in this process. C. If the collision is elastic, then the ball’s velocity does not change in this process. D. None of these is true. Answer: A 12. Object A moving due east collides with object B moving due west. After the collision, A is moving 20° north of due east. What must be true of B after the collision? A. B must be moving 20° south of due east. B. B must be moving 20° south of due west. C. At least part of B’s velocity must be toward the west. D. At least part of B’s velocity must be toward the south. E. None of these. Answer: E 13. Force F, acting for time T and over a distance D, gives impulse I. To get the same impulse using half the force, it would be necessary for the force to act A. over a distance 2D. B. over a distance 4D. C. over half the distance D. D. for a time 2T. E. for half the time T. Answer: D 14. A 5.0-kg cat travels to the left at 10 m/s and a 10-kg dog travels to the right at 5.0 m/s. The total momentum is A. 125 kg m/s to the left. B. zero. C. 50 kg m/s to the right. D. 100 kg m/s to the right. Answer: B 15. Two people sit face to face on chairs which are free to roll without friction. They push each other with a force of 50 N and move apart. Person A, whose mass (including the chair) is 80 kg, moves to the left at 2.5 m/s. Person B, whose mass (including the chair) is 50 kg, A. moves to the right at 2.5 m/s. B. moves to the right at 4 m/s. C. moves to the right at 3.16 m/s. D. moves to the right at 10 m/s. Answer: B

16. In attempting to pull a 1500-kg car out of a ditch, Al exerts a force of 200 N for 5 s, Bill exerts a force of 500 N for two s, and Clyde exerts a force of 300 N for four seconds. The car does not move at all. Who provided the greatest impulse? A. Al B. Bill C. Clyde D. Al, Bill, and Clyde provide equal, indeed zero, impulse. Answer: C 17. A 20-kg child runs at 4.0 m/s and jumps onto a shopping cart, which also has mass 20 kg. Assuming the child rides on the cart after the collision, the speed of the child and shopping cart, just after the child jumps on, is A. zero. B. 2.0 m/s. C. 3.0 m/s. D. 4.0 m/s. Answer: B

18. In a head-on automobile collision, a person’s momentum could be reduced from 2000 kg m/s to zero in just 0.1 s. If this occurs, the average force exerted to stop the person is A. 200 N. B. 2 000 N. C. 20 000 N. D. Can't answer without knowing the person’s mass. Answer: C 19. A child runs at 4.0 m/s and jumps onto a sled, initially at rest. If the child’ mass is 36 kg, and if the child and sled slide off together at 3.0 m/s after the collision, the sled's mass is A. 12 kg. B. 27 kg. C. 36 kg. D. 48 kg. Answer: A 20. A truck of mass 4000 kg is at rest, but free to roll with no resistance. If you push it forward with a force of 500 N, the momentum at the end of 5 s of pushing will be A. zero. B. 500 N. C. 800 kg/s. D. 2500 kg m/s. Answer: D

21. The average force required to accelerate a 0.20-kg ball from rest to 30 m/s in 0.001 s is A. 0.006 N B. 6 000 N. C. 30 000 N. D. 150 000 N. Answer: B 22. A friend drops a package to you from a window 16 feet above where you first catch it. It drops an additional 3 feet as you bring it to a stop with a constant force. In order to calculate the force required, you need A. no additional information. B. the mass of the package. C. the time it takes for you to stop the package. Answer: B 23. The principle that total momentum does not change during a brief collision is a result of A. the definition of the kilogram. B. the definition of the newton. C. Newton’s first law and Newton's second law. D. Newton’s first law and Newton's third law. E. Newton’s second law and Newton's third law. Answer: E 24. A box is moved 10 m across a smooth floor by a force F making a downward angle with the floor, so that there is effectively a 4 N force acting parallel to the floor in the direction of motion and a 3 N force acting perpendicular to the floor. The force F acts for 20 seconds. The impulse delivered to the box by the floor during this process has magnitude A. 100 Ns. B. 80 Ns. C. 60 Ns. D. zero. E. Can’t tell without knowing the mass of the box. Answer: E 25. A box is pushed eastward across a rough horizontal floor by a force acting parallel to the floor. A force providing an impulse directed westward on the body is A. gravity. B. friction. C. the applied force. D. normal reaction force of floor upward on body. E. a fictitious force. Answer: B

26. A box is pushed across a rough horizontal floor by a force acting parallel to the floor in the direction of motion. A force providing no impulse during the motion is A. gravity. B. friction. C. the applied force. D. None of these. Answer: D 27. A 4 kg block, initially moving due east at 3 m/s, is acted upon by an impulse having magnitude 8 Ns and direction due west. The final velocity of the block is A. 8 m/s west. B. 2 m/s west. C. 1 m/s east. D. 3 m/s east. Answer: E 28. Moving at a constant speed, an elevator lifts a 1200 N package 10 meters in 3 seconds. During this time, the impulse delivered to the package by the elevator floor is A. zero. B. 12 000 Nm up. C. 3 600 Ns up. D. 12 000 Ns up. Answer: C 29. Which of these collisions is likely to be most nearly elastic? A. Two steel balls collide at high speed. B. Two steel balls collide at low speed. C. A steel ball collides with a cotton ball at low speed. D. A steel ball collides with a cotton ball at high speed Answer: B 30. If the speed of a car is doubled, the impulse required to stop the car changes by a factor of A. 4. B. 2. C. 1. D. ½. E. ¼. Answer: B

31. A painter of mass 80 kg climbs 3.0 m up a ladder. The painter has gained momentum in amount of A. 240 J. B. 784 J. C. 2352 J. D. Can’t say without knowing his velocity change (if any). Answer: D 32. During a collision, which of these is an indication that the total kinetic energy has changed? A. Heat is generated. B. Deformation occurs. C. Sound is produced. D. All of A, B, and C. E. None of these. Answer: D 33. During a collision, which of these is an indication that the total momentum has changed? A. Heat is generated. B. Deformation occurs. C. Sound is produced. D. All of A, B, and C. E. None of these. Answer: E 34. Suppose a ball is dropped from shoulder height, falls, makes a perfectly elastic collision with the floor, and rebounds to shoulder height. Compare the magnitudes of the impulses delivered to the ball by gravity and by the floor during this entire motion. A. The two impulses have the same magnitude. B. The impulse delivered by the floor is twice as large as the impulse delivered by gravity. C. The impulse delivered by the floor is half as large as the impulse delivered by gravity. D. The floor delivers an upward impulse, but gravity does not deliver a total impulse. Answer: A 35. Although Newton’s second law, F = ma, is valid for collisions, it cannot generally be used in this form for collisions because A. the acceleration a is too small. B. the force F is not constant. C. the acceleration a occurs during a time interval too short to measure easily. D. both A and B. E. both B and C. Answer: E

36. A ball at the end of a string is twirled at constant speed in a horizontal circle. The magnitude of the total impulse delivered to the ball by the tension in the string A. is zero for any number of complete round trips. B. is twice as high for one full round trip as it is for one half of a round trip. C. is not zero for a round trip, since the string supports the weight of the ball. D. is always directed toward the center of the circle. Answer: C 37. Suppose two boys are trapped on the ice atop a frozen pond, and that the ice is completely frictionless. The boys are initially at rest, but they do have a baseball. They begin to play catch with the ball. Which of these is true? A. This will not help the boys get to shore. B. They will get to shore more quickly if they hold hands. C. If the first boy to catch the ball doesn’t throw it back, both will reach shore more quickly. D. Each boy will speed up as he throws the ball, and slow down as he catches it. E. If at least one catch is made, both should make it to shore. Answer: E 38. A bullet of mass 0.010 kg and speed of 100 m/s is brought to rest in a wooden block after penetrating a distance of 0.10 m. This process takes 0.02 seconds. The magnitude of the impulse delivered to the bullet by the block during this time is A. 0.50 Ns. B. 1.0 Ns. C. 2.0 Ns. D. .98 N. E. zero. Answer: B 39. A bullet is fired into a wall and comes to rest. Considering the bullet as the system we can say that A. the total kinetic energy is conserved. B. the momentum is conserved. C. both total kinetic energy and momentum are conserved. D. neither total kinetic energy nor momentum are conserved. Answer: D 40. The total momentum of a system will change during a collision unless the____________ force is zero. Answer: external 41. If heat, sound or deformation of solid bodies results from a collision, there will be a change in the total ____________ Answer: kinetic energy.

42. A moving cue ball strikes another ball of equal mass that is initially at rest. If the collision is elastic, the velocity of the cue ball after the collision will be __________________ to the velocity of the other ball. Answer: perpendicular. 43. The impulse required to bring an auto to a stop is ordinarily provided by __________________ forces. Answer: frictional 44. If a bullet is fired into a wooden block and remains lodged in the block, the collision was _________________. Answer: inelastic 45. If a bullet is fired into a solid wooden block and comes out the other side, the collision was _________________ inelastic. Answer: partially 46. If one fourth the force acts for twice as long, the impulse should be __________ as much. Answer: half 47. A 60 kg boy standing on a skateboard with frictionless wheels and negligible mass throws a 3 kg ball straight up with a speed of 4 m/s. If the boy was at rest before the throw, his speed after the throw will be _________________ . Answer: zero...