1. Which of the following is the unit for angular displacement? A. Meters B. Seconds C. Radians D. Radian per second E. Inches

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Chester Norman
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1 AP Physics B Practice Questions: Rotational Motion Multiple-Choice Questions 1. Which of the following is the unit for angular displacement? A. Meters B. Seconds C. Radians D. Radian per second E. Inches 2. A point object moves from point A to point B along a circular path with a radius R. What is the size of the angle θ? A. 1 rad B. 2 rad C. 3 rad D. 4 rad E. 5 rad

2 3. A solid disk with a radius R rotates at a constant rate ω. Which of the following points has the greater angular displacement? A. A B. B C. C D. D E. All points have the same angular displacement 4. A solid disk with a radius R rotates at a constant rate ω. Which of the following points has the greater angular velocity? A. A B. B C. C D. D E. All points have the same angular velocity

5. A solid disk with a radius R rotates at a constant rate ω. Which of the following points has the greater linear velocity? A. A B. B C. C D. D E. All points have the same linear velicity 6.

3 5. A solid disk with a radius R rotates at a constant rate ω. Which of the following points has the greater linear velocity? A. A B. B C. C D. D E. All points have the same linear velicity 6. A solid disk with a radius R rotates at a constant rate ω. Which of the following represents the period of rotations? A. 2πω B. ω 2π C. 2π ω D. 2ω E. 2π 7. An object starts from rest accelerates at a constant rate α in a circular path with a radius R. The radius describes an angle θ after time t. Which of the following represents the angular velocity as a function of θ? A. 2θα B. 2 θα C. 2θ α D. 2θα E. 2θ α 8. An object starts from rest accelerates at a constant rate in a circular path. After a certain time t the object reaches the angular velocity ω. How many revolutions did it make during time t? A. 4πω B. 4ω πt C. ωt 4π D. ω t E. 4ωt

4 9. A rod with a length L with respect to point A. An external force F is applied perpendicular to the rod. In which of the following cases the torque on the rod the same as the original? A. B. C. D. E.

10. A force with a magnitude F is applied to a doorknob, a second force 2F is applied to the same door at the midpoint. Both forces are perpendicular to the door plane.

5 10. A force with a magnitude F is applied to a doorknob, a second force 2F is applied to the same door at the midpoint. Both forces are perpendicular to the door plane. Which of the following is the correct ratio between the torque of the first force and the torque of the second force? A. 2 1 B. 1 2 C. 4 1 D. 1 4 E What is the analogy to the mass as a measure of inertia in the rotational motion? A. Torque B. Moment of inertia C. Angular acceleration D. Angular momentum E. Angular momentum 12. Two uniform disks have the same radius but different masses: disk 1has a mass M, disk 2 has a mass 2M. What is the ratio between the moment of inertia of the second disk and the first disk? A. 1 2 B. 1 4 C. 2 1 D. 4 1 E. 1 1

13. Two uniform disks have the same mass but different radii: disk 1has a Radius R, disk 2 has a radius 2R. What is the ratio between the moment of inertia of the second disk and the first disk? A.

6 13. Two uniform disks have the same mass but different radii: disk 1has a Radius R, disk 2 has a radius 2R. What is the ratio between the moment of inertia of the second disk and the first disk? A. 1 2 B. 1 4 C. 2 1 D. 4 1 E When a solid object rotates with a constant angular acceleration, which of the following is true? A. All points rotate with the same centripetal acceleration B. The net torque applied to the object must be zero C. The net torque applied to the object must be non-zero constant D. The net torque applied to the object must increase E. The net torque applied to the object must decrease 15. A bicycle wheel of radius R rolls with a constant angular velocity on a horizontal surface without friction. Which of the following is the right formula for the velocity of the center of mass? A. v = αr B. v = ωr C. v = α/r D. v = ω/r E. v = ω 2 R

7 16. Students perform an experiment to determine the winner of a race. Three objects: an empty soup can, a solid cylindrical battery, and a marble roll without slipping down an inclined plane of vertical height H. In addition a box slides without friction another inclined plane with the same size. Based on the results of the experiment which object reaches the bottom the plane first? A. The can B. The battery C. The marble D. The box E. They all reach the bottom at the same time 17. Earth moves around the Sun in an elliptical orbit. The Earth approaches the closets point to the Sun its linear velocity increases. Which of the following doesn t changes during the Earth s motion? A. The orbital radius B. The kinetic energy C. The potential energy D. The angular momentum E. More information is required 18. An ice skater performs a fast spin by pulling outstretched arms down and close to her body. What happens to her angular momentum with respect to the axis of rotation? A. It increases B. It decreases C. It doesn t change D. It depends how fast she rotates E. More information is required

19. An ice skater performs a fast spin by pulling outstretched arms down and close to her body. What happens to her kinetic energy with respect to the axis of rotation? A. It increases B.

8 19. An ice skater performs a fast spin by pulling outstretched arms down and close to her body. What happens to her kinetic energy with respect to the axis of rotation? A. It increases B. It decreases C. It doesn t change D. It depends how fast she rotates E. More information is required 20. Two boxes with masses 3 kg and 7 kg are attached the ends of a 1 m long lever. At which of the following points the lever should be placed on a fulcrum in order to keep the lever at equilibrium? A. A B. B C. C D. D E. E

Rotation Quiz II, review part A

Rotation Quiz II, review part A 1. A solid disk with a radius R rotates at a constant rate ω. Which of the following points has the greater angular velocity? A. A B. B C. C D. D E. All points have the