Physics - Workman Practice/Review for Exam on Chapter 3

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Physics - Workman Practice/Review for Exam on Chapter 3 1. Which of the following is a physical quantity that has a magnitude but no direction? a. vector b. scalar c. resultant d. frame of reference 2. Which of the following is a physical quantity that has both magnitude and direction? a. vector b. scalar c. resultant d. frame of reference 3. Which of the following is an example of a vector quantity? a. velocity b. temperature c. volume d. mass 4. In the figure above, which diagram represents the vector addition C = A + B? a. I b. II c. III d. IV 5. For the winter, a duck flies 10.0 m/s due south against a gust of wind with a speed of 2.5 m/s. What is the resultant velocity of the duck? a. 12.5 m/s south b. 12.5 m/s south c. 7.5 m/s south d. 7.5 m/s south 6. Multiplying or dividing vectors by scalars results in a. vectors. b. scalars. c. vectors if multiplied or scalars if divided. d. scalars if multiplied or vectors if divided. 7. A car travels down a road at a certain velocity, v car. The driver slows down so that the car is traveling only half as fast as before. Which of the following is the correct expression for the resulting velocity? a. 2v car b. v car c. v car d. 2v car 8. A football player runs in one direction to catch a pass, then turns and runs twice as fast in the opposite direction toward the goal line. Which of the following is a correct expression for the original velocity and the resulting velocity? a. v player, 2v player b. v player, 2v player c. v player, 2v player d. 2v player, v player 9. A student walks from the door of the house to the end of the driveway and realizes that he missed the bus. The student runs back to the house, traveling three times as fast. Which of the following is the correct expression for the return velocity if the initial velocity is v student? a. 3v student b. v student c. v student d. 3v student

10. An ant on a picnic table travels 3.0 10 cm eastward, then 25 cm northward, and finally 15 cm westward. What is the magnitude of the ant s displacement relative to its original position? a. 70 cm b. 57 cm c. 52 cm d. 29 cm 11. In a coordinate system, a vector is oriented at angle θ with respect to the x-axis. The x component of the vector equals the vector s magnitude multiplied by which trigonometric function? a. cos θ b. cot θ c. sin θ d. tan θ 12. In a coordinate system, a vector is oriented at angle θ with respect to the x-axis. The y component of the vector equals the vector s magnitude multiplied by which trigonometric function? a. cos θ b. cot θ c. sin θ d. tan θ 13. How many displacement vectors shown in the figure above have horizontal components? a. 2 b. 3 c. 4 d. 5 14. How many displacement vectors shown in the figure above have components that lie along the y-axis and are pointed in the y direction? a. 0 b. 2 c. 3 d. 5 15. Which displacement vectors shown in the figure above have vertical components that are equal? a. d and d b. d and d c. d and d d. d and d 16. In a coordinate system, the magnitude of the x component of a vector and θ, the angle between the vector and x- axis, are known. The magnitude of the vector equals the x component a. divided by the cosine of θ. b. divided by the sine of θ. c. multiplied by the cosine of θ. d. multiplied by the sine of θ. 17. Find the resultant of these two vectors: 2.00 10 units due east and 4.00 10 units 30.0 north of west. a. 300 units, 29.8 north of west b. 581 units, 20.1 north of east c. 546 units, 59.3 north of west d. 248 units, 53.9 north of west 18. Which of the following is the motion of objects moving in two dimensions under the influence of gravity? a. horizontal velocity b. directrix c. vertical velocity d. projectile motion

19. Which of the following is an example of projectile motion? a. a jet lifting off a runway b. a thrown baseball c. an aluminum can dropped straight down into the recycling bin d. a space shuttle being launched 20. Which of the following is not an example of projectile motion? a. a volleyball served over a net b. a baseball hit by a bat c. a hot-air balloon drifting toward Earth d. a long jumper in action 21. What is the path of a projectile (in the absence of friction)? a. a wavy line b. a parabola c. a hyperbola d. Projectiles do not follow a predictable path. 22. Which of the following does not exhibit parabolic motion? a. a frog jumping from land into water b. a basketball thrown to a hoop c. a flat piece of paper released from a window d. a baseball thrown to home plate 23. At what point of the ball s path shown in the figure above is the vertical component of the ball s velocity zero? a. A b. B c. C d. D 24. In the figure above, the magnitude of the ball s velocity is least at location a. A. b. B. c. C. d. D. 25. In the figure above, the magnitude of the ball s velocity is greatest at location a. A. b. B. c. C. d. D. 26. In the figure above, the horizontal component of the ball s velocity at A is a. zero. b. equal to the vertical component of the ball s velocity at C. c. equal in magnitude but opposite in direction to the horizontal component of the ball s velocity at D. d. equal to the horizontal component of its initial velocity. 27. In the figure above, at which point is the ball s speed about equal to the speed at which it was tossed? a. A b. B c. C d. D 28. A track star in the long jump goes into the jump at 12 m/s and launches herself at 20.0 above the horizontal. What is the magnitude of her horizontal displacement? (Assume no air resistance and that a = g = 9.81 m/s.) a. 4.6 m b. 9.2 m c. 13 m d. 15 m 29. A passenger on a bus moving east sees a man standing on a curb. From the passenger s perspective, the man appears to a. stand still. b. move west at a speed that is less than the bus s speed. c. move west at a speed that is equal to the bus s speed. d. move east at a speed that is equal to the bus s speed. 30. A piece of chalk is dropped by a teacher walking at a speed of 1.5 m/s. From the teacher s perspective, the chalk appears to fall a. straight down. b. straight down and backward. c. straight down and forward. d. straight backward. 31. A jet moving at 500.0 km/h due east is in a region where the wind is moving at 120.0 km/h in a direction 30.00 north of east. What is the speed of the aircraft relative to the ground? a. 620.2 km/h b. 606.9 km/h c. 588.7 km/h d. 511.3 km/h 32. Briefly explain why the true path of a projectile traveling through Earth s atmosphere is not a parabola. 33. A lightning bug flies at a velocity of 0.25 m/s due east toward another lightning bug seen off in the distance. A light easterly breeze blows on the bug at a velocity of 0.25 m/s. What is the resultant velocity of the lightning bug?

34. A duck waddles 2.5 m east and 6.0 m north. What are the magnitude and direction of the duck s displacement with respect to its original position? 35. A plane flies from city A to city B. City B is 1540 km west and 1160 km south of city A. What is the total displacement of the plane? 36. While following directions on a treasure map, a person walks 45.0 m south, then turns and walks 7.50 m east. Which single straight-line displacement could the person have walked to reach the same spot? 37. A string attached to an airborne kite was maintained at an angle of 40.0 with the ground. If 120 m of string was reeled in to return the kite back to the ground, what was the horizontal displacement of the kite? (Assume the kite string did not sag.) 38. An athlete runs 110 m across a level field at an angle of 30.0 north of east. What is the north component of this displacement? 39. What is the magnitude of the resultant displacement of a dog looking for its bone in the yard if the dog first heads 55.0 north of west for 10.0 m and then turns and heads west for 5.00 m? 40. A hiker walks 4.5 km at an angle of 45.0 north of west. Then the hiker walks 4.5 km south. What is the magnitude of the hiker s total displacement? 41. A cow ambles through a break in the barnyard fence and wanders 24 m at 40.0 north of east, and then 13 m east. If the cow s wanderings last 3.0 minutes, what is the cow s average velocity? 42. An hockey puck travels 2.00 m at 10.0 east of south before ricocheting 2.50 m at 75.0 north of east. What is the puck s resultant displacement? 43. A stone is thrown at an angle of 30.0 above the horizontal from the top edge of a cliff with an initial speed of 12 m/s. A stopwatch measures the stone s trajectory time from the top of the cliff to the bottom at 5.60 s. What is the height of the cliff? (Assume no air resistance and that a = g = 9.81 m/s.) 44. A model rocket flies horizontally off the edge of a cliff at a velocity of 50.0 m/s. If the canyon below is 100.0 m deep, how far from the edge of the cliff does the model rocket land? (a = g = 9.81 m/s ) 45. A firefighter 50.0 m away from a burning building directs a stream of water from a fire hose at an angle of 30.0 above the horizontal. If the velocity of the stream is 40.0 m/s, at what height will the stream of water strike the building? (a = g = 9.81 m/s ) 46. A small airplane flies at a velocity of 145 km/h toward the south as observed by a person on the ground. The airplane pilot measures an air velocity of 172 km/h south. What is the velocity of the wind that affects the plane?

Physics - Workman Practice/Review for Exam on Chapter 3 Answer Section 1. B 2. A 3. A 4. B 5. C 6. A 7. B 8. C 9. D 10. D 11. A 12. C 13. C 14. B 15. B 16. A 17. D 18. D 19. B 20. C 21. B 22. C 23. B 24. B 25. D 26. D 27. C 28. B 29. C 30. A 31. B MULTIPLE CHOICE SHORT ANSWER 32. With air resistance, a projectile slows down as it collides with air particles. Therefore, the true path of a projectile would not be a parabola. PROBLEM 33. 0.00 m/s

v = 0.25 m/s east v = 0.25 m/s west 34. 6.5 m at 67 north of east d = 2.5 m east d = 6.0 m north 35. 1930 km, 37.0 south of west d = 1540 km west d = 1160 km south 36. 45.6 m at 80.5 south of east d = 45.0 m south

d = 7.50 m east 37. 92 m d = 120 m, θ = 40.0 38. 55 m d = 110 m θ = 30.0 39. 13.5 m d = 10.0 m at 55.0 north of west d = 5.00 m west d = 10.0 m θ = 55.0 d = 5.0 m θ = 0.0

40. 3.5 km d = 4.5 km at 45.0 north of west d = 4.5 km south 41. 0.19 m/s, 26 north of east d = 24 m θ = 40.0 north of east d = 13 m θ = 0 east t = (3.0 min)(60 s/min) = 180 s

d = 34 m, 26 north of east v avg = 0.19 m/s, 26 north of east 42. 1.09 m at 24 north of east d = 2.00 m d = 2.50 m θ = 10.0 east of south θ = 75.0 north of east d = 1.09 m at 24 north of east 43. 120 m v = 12 m/s at 30.0 above the horizontal t = 5.60 s

g = 9.81 m/s 44. 226 m v = 50.0 m/s horizontally y = 100.0 m 45. 18.7 m v = 40.0 m/s θ = 30.0 x = 50.0 m

46. 27 km/h north v pg = velocity of plane to ground = 145 km/h south v pa = velocity of plane to air = 172 km/h south

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