During a Relay Race, Runner a Runs a Certain Distance Due North and Then Hands Off The

Unit 1 – 1D Motion

1. During a relay race, runner A runs a certain distance due north and then hands off the baton to runner B, who runs for the same distance in a direction south of east. The two displacement vectors A and B can be added together to give a resultant vector R. Which drawing correctly shows the resultant vector?

A /
/ B /
/ C /
/ D /

2. The drawing on below shows a displacement vector A (450.0m along the -y axis). In this x, y coordinate system the scalar components are Ax=0m and Ay=-450.0m. Suppose that the coordinate system is rotated counterclockwise by 35.0°, but the magnitude (450.0m) and direction of vector A remain unchanged (see the right drawing). What are the scalar components, Ax' and Ay', of the vector A in the rotated x', y' coordinate system?

/ A / Ax'=-450 cos 35om and Ay'=-450 sin 35o m
B / Ax'=+450 cos 35om and Ay'=-450 sin 35om
C / Ax'=+450 sin 35om and Ay'=+450 con 35om
D / Ax'=+450 sin 35om and Ay'=-450 con 35om
E / Ax'=-450 sin 35om and Ay'=-450 cos 35om

3. Three runners start at the same place. Shaun runs 4.0 km due east and then runs 1.0 km due west. Mark runs 3.0 km due east. Jeff runs 2.0 km due west and then runs 5.0 km due east. Which of the following is true concerning the displacement of each runner?

A / Shaun's displacement equals Mark's displacement, but Jeff's displacement is different.
B / Mark's displacement equals Jeff's displacement, but Shaun's displacement is different.
C / Shaun, Mark, and Jeff have the same displacements.
D / Shaun, Mark, and Jeff have different displacements.
E / Shaun's displacement equals Jeff's, but Mark's displacement is different.

4. The average acceleration is zero when ______

A / the magnitudes of the initial and final velocities are the same, and the directions of the initial and final velocities are different.
B / both the magnitudes and the directions of the initial and final velocities are the same.
C / the magnitude of the final velocity is greater than the magnitude of the initial velocity, and the direction of the velocity remains constant.
D / the initial and the final velocities have different magnitudes and different directions.

5. Which one of the following statements is not true?

A / In the absence of air resistance the motion of a baseball dropped from rest from the top of a building is an example of free-fall.
B / In the absence of air resistance the motion of a baseball after being thrown straight upward from the ground is an example of free-fall.
C / The equations of kinematics apply to free-fall motion.
D / Near the earth's surface the acceleration due to gravity has the approximate magnitude of 9.80 m/s2, points downward when the motion is downward, and points upward when the motion is upward.
E / In free-fall motion near the earth's surface the acceleration is the acceleration due to gravity.

6. The graph that accompanies this problem shows a three-part motion. Rank the velocities of three parts, A, B, and C, in ascending order (smallest first).

/ A / vC, vA, vB
B / vA, vC, vB
C / vA, vB, vC
D / vC, vB, vA
E / vB, vC, vA

7. For the motion described in the graph that accompanies this problem decide whether the moving object is accelerating, decelerating, or moving at a constant velocity.

/ A / Accelerating
B / Moving at a constant velocity
C / Decelerating
D / There is insufficient information for an answer.

Unit 2 – 2D Motion

8. The drawing shows projectile motion at three points along the trajectory. The speeds at the points are v1, v2, and v3. Assume there is no air resistance and rank the speeds, largest to smallest. (Note that the symbol ">" means "greater than.")

/ A / v1v3v2
B / v1v2v3
C / v2v3v1
D / v2v1v3
E / v3v2v1

9. At a certain point along the path in projectile motion, the projectile has a velocity v whose scalar components are vx=+30m/s and vy=+40m/s. As the projectile moves along the path, what would be its minimum speed?

/ A / 0 m/s
B / 30 m/s
C / 40 m/s
D /

10. Each drawing shows three points along the path of a projectile, one on its way up, one at the top, and one on its way down. Which drawing correctly represents the acceleration a of the projectile at these three points?

A /
/ B /
/ C /
/ D /
/ E /

11. Suppose Ball 1 is at a height of 19.6 m when it reaches the top of its trajectory. At the instant Ball 1 is at the top of its trajectory, Ball 2 is released from rest at the same height. How much time does it take for either ball to reach the ground? Note that the vertical component y of the ball's displacement points downward, in the -y direction.

/ A / 2.0 s
B / 4.0 s
C / 6.0 s
D / 1.0 s
E / 0.50 s.

12. An object is moving at a constant velocity. All but one of the following could be true. Which one cannot be true?

A / No forces act on the object.
B / A single force acts on the object.
C / Two forces act simultaneously on the object.
D / Three forces act simultaneously on the object.

Unit 3 – Newton’s Laws & Force

13. Which one of the following descriptions violates Newton's first law of motion?

A / A child is sitting in the back seat of a car and is not wearing a seat belt. The car is traveling forward, and the driver suddenly applies the brakes. The child flies forward against the rear side of the front seat.
B / A small suitcase is at the front of the overhead luggage compartment on an airplane. When the airplane begins its takeoff, the suitcase slides to the rear of the compartment.
C / A glass of water is sitting on a table in the dining car of a train. The train brakes as it nears the station, and the glass slides forward.
D / A rabbit's foot is hanging on a chain from the rearview mirror of a car. As the car accelerates, the rabbit's foot swings toward the windshield.

14. Two forces act on a moving object that has a mass of 5kg. One has a magnitude of 12N and points due south, while the other has a magnitude of 37N and points due north. What is the acceleration of the object?

A / 5m/s2 directed south
B / 10m/s2 directed south
C / 5m/s2 directed north
D / 10 m/s2 directed north
E / 50m/s2 directed north

15. Which one of the following is true, according to Newton's laws of motion? Ignore friction.

A / A sports utility vehicle (SUV) hits a stationary motorcycle. Since it is stationary, the motorcycle sustains a greater force than the SUV does.
B / A semi-truck crashes all the way through a wall. Since it collapses, the wall sustains a greater force than the truck does.
C / Sam (18 years old) and his sister (9 years old) go ice skating. They push off against each other and fly apart. Sam flies off with the greater acceleration.
D / Two astronauts on a "space walk" are throwing a ball back and forth between each other. In this game of "catch" the distance between them remains constant.
E / None of the above is true, according to the third law.

16. In another solar system a planet has four times the earth's mass and two times the earth's radius. Your weight on this planet is ______times your earth-weight. Assume that the masses of the earth and the other planet are uniformly distributed.

A / 1
B / 2
C / 0.111
D / 0.444
E / 0.222

17. The apparent weight of a passenger in an elevator is greater than his true weight. Which one of the following is true?

A / The elevator is moving upward with an increasing speed or moving upward with an decreasing speed.
B / The elevator is moving upward with an increasing speed or moving downward with an increasing speed.
C / The elevator is moving upward with a decreasing speed or downward with a decreasing speed.
D / The elevator is moving upward with an increasing speed or moving downward with a decreasing speed.
E / The elevator is moving upward with a decreasing speed or downward with in increasing speed.

18. The drawings show identical blocks at rest on three different inclines, each block held in place by static friction. Rank the forces of static friction in the three cases in ascending order (smallest first).

/ A / B, C, A
B / A, C, B
C / B, A, C
D / A, B, C
E / C, A, B

19. The drawings show three identical blocks sliding along horizontal surfaces. Each block has a different mass, as indicated. The coefficient of kinetic friction in each case is the same. Which block has the greatest deceleration?

/ A / A
B / B
C / C
D / The deceleration is the same in each case.

20.

A certain object is in equilibrium. Which one of the following statements is not true?

A / The object must be at rest.
B / The object has a constant velocity.
C / The object has no acceleration.
D / No net force acts on the object.

21. A certain object is not in equilibrium. Three of the following statements could possibly be true, and one must be true. Which one of the following must be true?

A / Only a single force acts on the object.
B / A net force acts on the object.
C / Only two perpendicular forces act on the object.
D / Only three forces act on the object.

22. The drawing shows a block at rest on an incline. The mass of the block is 8.0kg. What is the static frictional force that acts on the block?

/ A / 8*10*cos 22oN
B / 8*cos 22oN
C / -8*10*cos 22o N
D / -8*10*sin 22o N
E / There is not enough information to calculate the frictional force.

Unit 4 – Uniform Circular Motion

23.

/ Two cars are traveling at the same constant speed v. Car A is moving along a straight section of the road, while B is rounding a circular turn. Which statement is true about the acceleration of the cars?
A / The acceleration of both cars is zero, since they are traveling at a constant speed.
B / Car A is accelerating, but car B is not accelerating.
C / Car A is not accelerating, but car B is accelerating.
D / Both cars are accelerating.

24. A small cylinder rests on a circular turntable that is rotating clockwise at a constant speed. Which set of vectors gives the direction of the velocity v and acceleration a of the cylinder, and the net force ΣF that acts on it.

/ A /
/ C /
B /
/ D /

25. A car is rounding a circular curve of radius r on a banked turn. As the drawing indicates, there are two forces acting on the car, its weight mg and the normal force FN exerted on it by the road. Which force, or force component, provides the centripetal force that keeps the car moving on the circular path?

/ A / The normal force, FN.
B / The weight, mg, of the car.
C / The vertical component, FNcosθ, of the normal force.
D / The horizontal component, FNsin θ, of the normal force.
E / Both the normal force, FN, and the weight, mg, of the car.

26. The drawing shows an extreme skier at three locations on a ski run: (A) a straight section, (B) a circular section, and (C) an airborne phase in which the skier is in free-fall. At the right of the drawing are four possible directions for the net force that acts on the skier. What is the direction of the net force at A, B, and C? Assume that there is no friction or air resistance at any point along the ski run.

/ A / 4, 3, 2
B / 3, 1, 3
C / 2, 3, 2
D / 2, 1, 3
E / 2, 1, 1

27. The drawing shows an extreme skier at bottom of a ski jump. At this point the track is circular with a radius r. Two forces act on the skier, her weight mg and the normal force FN. Which relation describes how the net force acting on her is related to her mass m and speed v and to the radius r? Assume that "up" is the positive direction.

/ A /
B /
C /
D /

Unit 5 – Work & Energy

28. The same force F pushes in three different ways on a box moving with a velocity v, as the drawings show. Rank the work done by the force F in ascending order (smallest first).

/ A / A, B, C
B / A, C, B
C / B, A, C
D / C, B, A
E / C, A, B

29. A force F acts on an object undergoing a displacement s, the force being oriented at an angle θ with respect to the displacement. Which one of the following correctly describes ALL of the circumstances under which the work done by the force is zero?

A / The force is zero, or the displacement is zero.
B / The displacement is zero, or the angle is 90°.
C / The force is zero, or the displacement is zero, or the angle is 90°.
D / The force is zero, or the angle is 90°.
E / The force is zero, or the displacement is zero, or the angle is 180°.

30. Air resistance is a non-conservative force. It always opposes the motion of an object. An airplane flies from New York to Atlanta and then returns to its point of departure. The net work done by air resistance during this round trip is

A / negative for higher speeds and positive for slower speeds
B / negative for slower speeds and positive for higher speeds
C / zero
D / positive
E / negative

31.

A stone is thrown with a speed v0 and returns to earth, as the drawing shows. Ignore friction and air resistance, and consider the initial and final locations of the stone. Which one of the following correctly describes the change ΔPE in the gravitational potential energy and the change ΔKE in the kinetic energy of the stone as it moves from its initial to its final location?

/ A / ΔPE=0J and ΔKE=0J
B / ΔPE is positive and ΔKE is negative
C / ΔPE is negative and ΔKE is positive
D / ΔPE=0J and ΔKE is positive
E / ΔPE=0J and ΔKE is negative

32. A bicycle rider has a speed of 2 m/s at a height of 5 m above sea level when he begins coasting down hill. The mass of the rider and his bike is 50 kg. Sea level is the zero level for measuring gravitational potential energy. Ignoring friction and air resistance, what is the rider's total mechanical energy when he coasts to a height of 1 m above sea level?

A / 100 J
B / 2500 J
C / 2600 J
D / 40 J

33. A 90.0-kg skydiver falls straight downward with an open parachute through a vertical height of 300 m. The skydiver's velocity remains constant. What is the work done by the non-conservative force of air resistance, which is the only non-conservative force acting?

A / -270,000 J
B / 0 J
C / +270,000 J
D / Answer is not obtainable, because there is insufficient information about speed.

34. Two identical cars are traveling at the same speed. One is heading due east and the other due north, as the drawing shows. Which statement is true regarding the kinetic energies and momenta of the cars?

/ A / They have the same kinetic energies and the same momenta.
B / They have the same kinetic energies, but different momenta.
C / They have different kinetic energies, but the same momenta.
D / They have different kinetic energies and different momenta.

35. A high-jumper, having just cleared the bar, lands on an air mattress and comes to rest. Had she landed directly on the hard ground, her stopping time would have been much shorter. Using the impulse-momentum theorem as your guide, determine which one of the following statements is correct.

A / The air mattress exerts a greater impulse, and a greater net average force, on the high-jumper than does the hard ground.
B / The air mattress exerts a greater impulse, but a smaller net average force, on the high-jumper than does the hard ground.
C / The air mattress exerts the same impulse, but a greater net average force, on the high-jumper than does the hard ground.
D / The air mattress exerts the same impulse, but a smaller net average force, on the high-jumper than does the hard ground.
E / The air mattress exerts a smaller impulse, and a smaller net average force, on the high-jumper than does the hard ground.

36. The drawing illustrates an overhead view of a door and its axis of rotation. The axis is perpendicular to the screen. There are four forces acting on the door, and they have the same magnitude. Rank the torque  that each force produces, largest to smallest.

/ A / F4, F3, F2, F1
B / F3, F2, F1 and F4 (a two-way tie)
C / F2,F4, F3, F1
D / F1, F4, F3, F2
E / F2, F3 and F4 (a two-way tie), F1

38. Two blocks are placed at the ends of a mass-less board. The board is balanced on a support that serves as an axis of rotation. Which statement best describes the picture?

A - / The bar is at rotational equilibrium.
B - / The bar will rotate clockwise.
C - / The bar will rotate counter clockwise.
D - / Not enough information given to determine what it will do.

39. Two objects undergo an elastic collision. The table shows four possible sets of the initial and final kinetic energies of the objects. Which is the only set that could occur?

Initial Kinetic Energies (Before Collision) / Final Kinetic Energies (After Collision)
Object 1 / Object 2 / Object 1 / Object 2
A / 15 J / 0 J / 10 J / 9 J
B / 8 J / 6 J / 10 J / 4 J
C / 8 J / 6 J / 16 J / -2 J
D / 3 J / 8 J / 2 J / 6 J

40. A particle is moving along the +x axis, and the graph shows its momentum p as a function of time t. In each of the four regions a force may, or may not, be applied to the particle. In which region is the magnitude of the force largest and in which region is it smallest?

/ A - / B (largest), D (smallest)
B - / C (largest), B (smallest)
C - / A (largest), D (smallest)
D - / C (largest), A (smallest)
E - / A (largest), C (smallest)

Unit 6 – Oscillations & SHM

41. You have two springs. One has a greater spring constant than the other. You also have two objects, one with a greater mass than the other. Which object should be attached to which spring, so that the resulting spring-object system has the greatest possible period of oscillation?

A / The object with the greater mass should be attached to the spring with the greater spring constant.
B / The object with the greater mass should be attached to the spring with the smaller spring constant.
C / The object with the smaller mass should be attached to the spring with the smaller spring constant.
D / The object with the smaller mass should be attached to the spring with the greater spring constant.

42. The drawing shows a graph of displacement x versus time t for simple harmonic motion of an object on a horizontal spring. Which one of the following answers correctly gives the magnitude v of the velocity and the magnitude a of the acceleration at points A and B in the graph?

/ A / vA=maximum, aA=maximum, vB=0m/s, aB=0m/s2
B / vA=maximum, aA=0m/s2, vB=0m/s, aB=maximum
C / vA=0m/s, aA=0m/s2, vB=maximum, aB=maximum
D / vA=0m/s, aA=maximum, vB=maximum, aB=0m/s2
E / vA=maximum, aA=maximum, vB=0m/s, aB=maximum

43. Which one of the following graphs correctly represents the restoring force F of an ideal spring as a function of the displacement x of the spring from its unstrained length?