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Apr 3, 2024

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Import Settings: Base Settings: Brownstone Default Information Field: Difficulty Information Field: SectionDef Highest Answer Letter: E Multiple Keywords in Same Paragraph: No Chapter: Chapter 6 Multiple Choice 1. In which one of the following situations is zero net work done? A) A ball rolls down an inclined plane. B) A physics student stretches a spring. C) A projectile falls toward the surface of Earth. D) A box is pulled across a rough floor at constant velocity. E) A child pulls a toy across a rough surface causing it to accelerate. Ans: D Difficulty: Medium SectionDef: Section 6-1 and 6-2 2. Complete the following statement: Work may be expressed using all of the following units except A) N m. B) joule. C) erg. D) ft lb. E) watt. Ans: E
Difficulty: Easy SectionDef: Section 6-1 and 6-2 3. A concrete block is pulled 7.0 m across a frictionless surface by means of a rope. The tension in the rope is 40 N; and the net work done on the block is 247 J. What angle does the rope make with the horizontal? A) 28° B) 41° C) 47° D) 62° E) 88° Ans: A Difficulty: Medium SectionDef: Section 6-1 and 6-2 4. Mike is cutting the grass using a human-powered lawn mower. He pushes the mower with a force of 45 N directed at an angle of 41° below the horizontal direction. Calculate the work that Mike does on the mower each time he pushes it 9.1 m across the yard. A) 510 J B) 260 J C) 410 J D) 360 J E) 310 J Ans: E Difficulty: Medium SectionDef: Section 6-1 and 6-2 5. A 5.00-kg block of ice is sliding across a frozen pond at 2.00 m/s. A 7.60-N force is applied in the direction of motion. After the ice block slides 15.0 m, the force is removed. The work done by the applied force is A) –114 J. B) +114 J. C) –735 J.
D) +735 J. E) +19.7 J. Ans: B Difficulty: Medium SectionDef: Section 6-1 and 6-2 6. A force with a magnitude of 25 N and directed at an angle of 37° above the horizontal is used to move a 10-kg crate along a horizontal surface at constant velocity. How much work is done by this force in moving the crate a distance of 15 m? A) zero joules B) 1.7 J C) 40 J D) 98 J E) 300 J Ans: E Difficulty: Medium SectionDef: Section 6-1 and 6-2 7. A constant force of 25 N is applied as shown to a block which undergoes a displacement of 7.5 m to the right along a frictionless surface while the force acts. What is the work done by the force? Question is WRONG A) zero joules B) +94 J C) –94 J D) +160 J E) –160 J Ans: C Difficulty: Hard SectionDef: Section 6-1 and 6-2 8. A 1.0-kg ball on the end of a string is whirled at a constant speed of 2.0 m/s in a horizontal circle of radius 1.5 m. What is the work done by the centripetal force during one revolution?
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Displacement is 0 A) zero joules B) 2.7 J C) 6.0 J D) 25 J E) 33 J Ans: A Difficulty: Medium SectionDef: Section 6-1 and 6-2 9. Julie carries an 8.0-kg suitcase as she walks 18 m along a horizontal walkway to her hotel room at a constant speed of 1.5 m/s. How much work does Julie do in carrying her suitcase? A) zero joules B) 40 J C) 200 J D) 300 J E) 2000 J Ans: A Difficulty: Medium SectionDef: Section 6-1 and 6-2 10. Which one of the following situations is an example of an object with a non-zero kinetic energy? A) a drum of diesel fuel on a parked truck B) a stationary pendulum C) a satellite in geosynchronous orbit D) a car parked at the top of a hill E) a boulder resting at the bottom of a cliff Ans: C Difficulty: Easy SectionDef: Section 6-1 and 6-2 11. Which one of the following statements concerning kinetic energy is true?
A) Kinetic energy can be measured in watts. B) Kinetic energy is always equal to the potential energy. C) Kinetic energy is always positive. D) Kinetic energy is a quantitative measure of inertia. E) Kinetic energy is directly proportional to velocity. Ans: C Difficulty: Medium SectionDef: Section 6-1 and 6-2 12. Which one of the following has the largest kinetic energy? A) a raindrop falling B) a woman swimming C) a jet airplane flying at its maximum speed D) the earth moving in its orbit around the sun E) the space shuttle orbiting the Earth Ans: D Difficulty: Medium SectionDef: Section 6-1 and 6-2 13. In which one of the following situations will there be an increase in kinetic energy? A) A projectile approaches its maximum height. B) A ball starts from rest and freely rolls downhill. C) A box is pulled across a rough floor at constant speed. D) A satellite travels in a circular orbit around the earth at fixed altitude. E) A stone at the end of a string is whirled in a horizontal circle at constant speed. Ans: B Difficulty: Easy SectionDef: Section 6-1 and 6-2 14. An experimental 1500-kg car travels at a constant speed of 22 m/s around a circular test track that is 80 m across. What is the kinetic energy of the car? A) zero joules
B) 3.6 × 10 5 J C) 3.3 × 10 4 J D) 1.6 × 10 4 J E) 7.2 × 10 5 J Ans: B Difficulty: Easy SectionDef: Section 6-1 and 6-2 15. The kinetic energy of a car is 8 × 10 6 J as it travels along a horizontal road. How much work is required to stop the car in 10 s? A) zero joules B) 8 × 10 4 J C) 8 × 10 5 J D) 8 × 10 6 J E) 8 × 10 7 J Ans: D Difficulty: Easy SectionDef: Section 6-1 and 6-2 16. How much energy is dissipated in braking a 1200-kg car to a stop from an initial speed of 30 m/s? A) 24 000 J B) 280 000 J C) 540 000 J D) 820 000 J E) 12 000 J Ans: C Difficulty: Medium SectionDef: Section 6-1 and 6-2
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17. The kinetic energy of an 1800-kg truck is 7.2 × 10 5 J. What is the speed of the truck? A) 25 m/s B) 33 m/s C) 28 m/s D) 17 m/s E) 21 m/s Ans: C Difficulty: Medium SectionDef: Section 6-1 and 6-2 18. A 10.0-g bullet traveling horizontally at 755 m/s strikes a stationary target and stops after penetrating 14.5 cm into the target. What is the average force of the target on the bullet? A) 1.97 × 10 4 N B) 2.07 × 10 5 N C) 6.26 × 10 3 N D) 3.13 × 10 4 N E) 3.93 × 10 4 N Ans: A Difficulty: Hard SectionDef: Section 6-1 and 6-2 19. A car is traveling at 7.0 m/s when the driver applies the brakes. The car moves 1.5 m before it comes to a complete stop. If the car had been moving at 14 m/s, how far would it have continued to move after the brakes were applied? Assume the braking force in both cases is constant and the same. A) 1.5 m B) 3.0 m C) 4.5 m D) 6.0 m E) 7.5 m Ans: D Difficulty: Hard
SectionDef: Section 6-1 and 6-2 20. Use the work-energy theorem to find the force required to accelerate an electron ( m = 9.11 × 10 –31 kg) moving along the x axis from 4.00 × 10 6 m/s to 1.60 × 10 7 m/s in a distance of 0.0125 m. A) 8.75 × 10 –15 N B) 5.47 × 10 –22 N C) 8.20 × 10 –17 N D) 1.64 × 10 –14 N E) 3.56 × 10 –19 N Ans: A Difficulty: Medium SectionDef: Section 6-1 and 6-2 21. In which one of the following systems is there a decrease in gravitational potential energy? A) a boy stretches a horizontal spring B) a girl jumps down from a bed C) a crate rests at the bottom of an inclined plane D) a car ascends a steep hill E) water is forced upward through a pipe Ans: B Difficulty: Easy SectionDef: Section 6-3 and 6-4 22. An elevator supported by a single cable descends a shaft at a constant speed. The only forces acting on the elevator are the tension in the cable and the gravitational force. Which one of the following statements is true? A) The magnitude of the work done by the tension force is larger than that done by the gravitational force. B) The magnitude of the work done by the gravitational force is larger than that done by the tension force.
C) The work done by the tension force is zero joules. D) The work done by the gravitational force is zero joules. E) The net work done by the two forces is zero joules. Ans: E Difficulty: Medium SectionDef: Section 6-3 and 6-4 23. During the construction of a high rise building, 40-kg block is vertically lifted 20 meters from the surface of the earth. To one significant figure, what is the change in the gravitational potential energy of the block? A) +800 J B) –800 J C) +8000 J D) –8000 J E) zero joules Ans: C Difficulty: Easy SectionDef: Section 6-3 and 6-4 24. A 1500-kg elevator moves upward with constant speed through a vertical distance of 25 m. How much work was done by the tension in the elevator cable? A) 990 J B) 8100 J C) 140 000 J D) 370 000 J E) 430 000 J Ans: D Difficulty: Medium SectionDef: Section 6-3 and 6-4 25. Larry's gravitational potential energy is 1870 J as he sits 2.20 m above the ground in a sky diving airplane before it takes off. What is Larry's gravitational potential energy when be begins to jump from the airplane at an altitude of 923 m?
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A) 7.85 × 10 5 J B) 1.87 × 10 3 J C) 3.29 × 10 4 J D) 9.36 × 10 2 J E) 4.22 × 10 6 J Ans: A Difficulty: Medium SectionDef: Section 6-3 and 6-4 26. Two balls of equal size are dropped from the same height from the roof of a building. One ball has twice the mass of the other. When the balls reach the ground, how do the kinetic energies of the two balls compare? A) The lighter one has one fourth as much kinetic energy as the other does. B) The lighter one has one half as much kinetic energy as the other does. C) The lighter one has the same kinetic energy as the other does. D) The lighter one has twice as much kinetic energy as the other does. E) The lighter one has four times as much kinetic energy as the other does. Ans: B Difficulty: Medium SectionDef: Section 6-3 and 6-4 27. A 12-kg crate is pushed up an incline from point A to point B as shown in the figure. What is the change in the gravitational potential energy of the crate? A) +590 J B) –590 J C) +1200 J D) –1200 J E) This cannot be determined without knowing the angle of the incline. Ans: A Difficulty: Medium SectionDef: Section 6-3 and 6-4
28. A woman stands on the edge of a cliff and throws a stone vertically downward with an initial speed of 10 m/s. The instant before the stone hits the ground below, it has 450 J of kinetic energy. If she were to throw the stone horizontally outward from the cliff with the same initial speed of 10 m/s, how much kinetic energy would it have just before it hits the ground? A) 50 J B) 100 J C) 450 J D) 800 J E) 950 J Ans: C Difficulty: Medium SectionDef: Section 6-3 and 6-4 29. A donkey pulls a crate up a rough, inclined plane at constant speed. Which one of the following statements concerning this situation is false? A) The gravitational potential energy of the crate is increasing. B) The net work done by all the forces acting on the crate is zero joules. C) The work done on the crate by the normal force of the plane is zero joules. D) The donkey does "positive" work in pulling the crate up the incline. E) The work done on the object by gravity is zero joules. Ans: E Difficulty: Medium SectionDef: Section 6-3 and 6-4 30. A block is dropped from a high tower and is falling freely under the influence of gravity. Which one of the following statements is true concerning this situation? Neglect air resistance. A) As the block falls, the net work done by all of the forces acting on the block is zero joules. B) The kinetic energy increases by equal amounts over equal distances. C) The kinetic energy of the block increases by equal amounts in equal times. D) The potential energy of the block decreases by equal amounts in equal times. E) The total energy of the block increases by equal amounts over equal distances. Ans: B Difficulty: Hard SectionDef: Section 6-3 and 6-4
31. A rock is thrown straight up from the surface of the Earth. Which one of the following statements describes the energy transformation of the rock as it rises? Neglect air resistance. A) The total energy of the rock increases. B) The kinetic energy increases and the potential energy decreases. C) Both the potential energy and the total energy of the rock increase. D) The kinetic energy decreases and the potential energy increases. E) Both the kinetic energy and the potential energy of the rock remain the same. Ans: D Difficulty: Medium SectionDef: Section 6-3 and 6-4 32. Complete the following statement: A force that acts on an object is said to be conservative if A) it obeys Newton's laws of motion. B) it results in a change in the object's kinetic energy. C) it always acts in the direction of motion of the object. D) the work it does on the object is independent of the path of the motion. E) the work it does on the object is equal to the increase in the object's kinetic energy. Ans: D Difficulty: Medium SectionDef: Section 6-3 and 6-4 33. Which one of the following choices is an example of a conservative force? A) tension B) normal force C) static frictional force D) motor propulsion force E) elastic spring force Ans: E Difficulty: Easy SectionDef: Section 6-3 and 6-4
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34. Which one of the following choices is an example of a non-conservative force? A) gravitational force B) electrical force C) kinetic frictional force D) elastic spring force Ans: C Difficulty: Easy SectionDef: Section 6-3 and 6-4 35. A helicopter ( m = 3250 kg) is cruising at a speed of 56.9 m/s at an altitude of 185 m. What is the total mechanical energy of the helicopter? A) 3.91 × 10 7 J B) 5.26 × 10 7 J C) 2.27 × 10 8 J D) 6.91 × 10 7 J E) 1.12 × 10 8 J Ans: E Difficulty: Easy SectionDef: Section 6-5 36. A pebble rolls off the roof of Science Hall and falls vertically. Just before it reaches the ground, the pebble's speed is 17 m/s. Neglect air resistance and determine the height of Science Hall. A) 42 m B) 33 m C) 26 m D) 21 m E) 15 m Ans: E Difficulty: Medium SectionDef: Section 6-5
Reference: Ref 6-1 A 2.0-kg projectile is fired with initial velocity components v ox = 30 m/s and v oy = 40 m/s from a point on the earth's surface. Neglect any effects due to air resistance. 37. What is the kinetic energy of the projectile when it reaches the highest point in its trajectory? A) zero joules B) 900 J C) 1600 J D) 2500 J E) 4900 J Ans: B Refer To: Ref 6-1 Difficulty: Medium SectionDef: Section 6-5 38. How much work was done in firing the projectile? A) 900 J B) 1600 J C) 2500 J D) 4900 J E) 9800 J Ans: C Refer To: Ref 6-1 Difficulty: Hard SectionDef: Section 6-5 39. Two boxes are connected to each other as shown. The system is released from rest and the 1.00-kg box falls through a distance of 1.00 m. The surface of the table is frictionless. What is the kinetic energy of box B just before it reaches the floor?Block B KE is 1/4 of PE because both
are moving and B. Is 1/4 mass A) 2.45 J B) 4.90 J C) 9.80 J D) 29.4 J E) 39.2 J Ans: A Difficulty: Hard SectionDef: Section 6-5 40. A roller-coaster car is moving at 20 m/s along a straight horizontal track. What will its speed be after climbing the 15-m hill shown in the figure, if friction is ignored? A) 17 m/s B) 7 m/s C) 5 m/s D) 10 m/s E) 14 m/s Ans: D Difficulty: Medium SectionDef: Section 6-5 41. A 3.0-kg cylinder falls vertically from rest in a very tall, evacuated tube near the surface of the earth. What is its speed after the cylinder has fallen 6.0 m? A) 8.0 m/s B) 11 m/s C) 13 m/s D) 120 m/s E) 26 m/s Ans: B Difficulty: Easy SectionDef: Section 6-5
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42. A bicyclist is traveling at a speed of 20.0 m/s as he approaches the bottom of a hill. He decides to coast up the hill and stops upon reaching the top. Neglecting friction, determine the vertical height of the hill. A) 28.5 m B) 3.70 m C) 11.2 m D) 40.8 m E) 20.4 m Ans: E Difficulty: Medium SectionDef: Section 6-5 43. A skier leaves the top of a slope with an initial speed of 5.0 m/s. Her speed at the bottom of the slope is 13 m/s. What is the height of the slope? A) 1.1 m B) 4.6 m C) 6.4 m D) 7.3 m E) 11 m Ans: D Difficulty: Medium SectionDef: Section 6-5 44. A roller coaster starts from rest at the top of an 18-m hill as shown. The car travels to the bottom of the hill and continues up the next hill that is 10.0 m high. How fast is the car moving at the top of the 10.0-m hill, if friction is ignored? A) 6.4 m/s B) 8.1 m/s C) 13 m/s D) 18 m/s E) 27 m/s Ans: C Difficulty: Medium SectionDef: Section 6-5
45. An engineer is asked to design a playground slide such that the speed a child reaches at the bottom does not exceed 6.0 m/s. Determine the maximum height that the slide can be. A) 1.8 m B) 2.9 m C) 3.2 m D) 4.5 m E) 7.4 m Ans: A Difficulty: Medium SectionDef: Section 6-5 46. A care package is dropped from rest from a helicopter hovering 25 m above the ground.What is the speed of the package just before it reaches the ground? Neglect air resistance. A) 22 m/s B) 16 m/s C) 12 m/s D) 8.0 m/s E) 5.0 m/s Ans: A Difficulty: Easy SectionDef: Section 6-5 Reference: Ref 6-2 A block of mass m is released from rest at a height R above a horizontal surface. The acceleration due to gravity is g . The block slides along the inside of a frictionless circular hoop of radius R .
47. Which one of the following expressions gives the speed of the mass at the bottom of the hoop? A) zero m/s 2 B) v = mgR C) D) E) v 2 = 2 gR Ans: E Refer To: Ref 6-2 Difficulty: Medium SectionDef: Section 6-5 48. What is the magnitude of the normal force exerted on the block by the hoop when the block reaches the bottom of the hoop?Solve for V^2 using energy conversion then Fc=FN-FG A) zero newtons B) mg 2 / R C) mg D) 2 mg E) 3 mg Ans: E Refer To: Ref 6-2 Difficulty: Hard SectionDef: Section 6-5 49. A physics student shoves a 0.50-kg block from the bottom of a frictionless 30.0° inclined plane. The student performs 4.0 J of work and the block slides a distance s along the incline before it stops. Determine the value of s . A) 8.0 cm B) 16 cm C) 82 cm D) 160 cm E) 330 cm
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Ans: D Difficulty: Hard SectionDef: Section 6-6 50. The initial velocity of a 4.0-kg box is 11 m/s, due west. After the box slides 4.0 m horizontally, its speed is 1.5 m/s. Determine the magnitude and the direction of the non- conservative force acting on the box as it slides. A) 42 N, due west B) 120 N, due east C) 31 N, due east D) 59 N, due east E) 83 N, due west Ans: D Difficulty: Hard SectionDef: Section 6-6 51. An automobile approaches a barrier at a speed of 20 m/s along a level road. The driver locks the brakes at a distance of 50 m from the barrier. What minimum coefficient of kinetic friction is required to stop the automobile before it hits the barrier? A) 0.4 B) 0.5 C) 0.6 D) 0.7 E) 0.8 Ans: A Difficulty: Hard SectionDef: Section 6-6 Reference: Ref 6-3 A 9.0-kg box of oranges slides from rest down a frictionless incline from a height of 5.0 m. A constant frictional force, introduced at point A , brings the block to rest at point B , 19 m to the right of point A .
52. What is the speed of the box just before it reaches point A? A) 98 m/s B) 21 m/s C) 9.9 m/s D) 5.7 m/s E) 4.4 m/s Ans: C Refer To: Ref 6-3 Difficulty: Medium SectionDef: Section 6-6 53. What is the coefficient of kinetic friction, μ k , of the surface from A to B? A) 0.11 B) 0.26 C) 0.33 D) 0.47 E) 0.52 Ans: B Refer To: Ref 6-3 Difficulty: Hard SectionDef: Section 6-6 54. The kinetic energy of a car is 8 × 10 6 J as it travels along a horizontal road. How much power is required to stop the car in 10 s? A) zero watts B) 8 × 10 4 W C) 8 × 10 5 W D) 8 × 10 6 W E) 8 × 10 7 W
Ans: C Difficulty: Easy SectionDef: Section 6-7 55. A 51-kg woman runs up a flight of stairs in 5.0 s. Her net upward displacement is 5.0 m. Approximately, what average power did the woman exert while she was running? A) 5.0 kW B) 1.0 kW C) 0.75 kW D) 0.50 kW E) 0.25 kW Ans: D Difficulty: Medium SectionDef: Section 6-7 56. What power is needed to lift a 49-kg person a vertical distance of 5.0 m in 20.0 s? A) 12.5 W B) 25 W C) 60 W D) 120 W E) 210 W Ans: D Difficulty: Medium SectionDef: Section 6-7 57. An escalator is 30.0 meters long and slants at 30.0° relative to the horizontal. If it moves at 1.00 m/s, at what rate does it do work in lifting a 50.0-kg woman from the bottom to the top of the escalator? A) 49.3 W B) 98.0 W C) 245 W D) 292 W E) 495 W
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Ans: C Difficulty: Hard SectionDef: Section 6-7 58. How much power is needed to lift a 75-kg student vertically upward at a constant speed of 0.33 m/s? A) 12.5 W B) 25 W C) 115 W D) 230 W E) 243 W Ans: E Difficulty: Hard SectionDef: Section 6-7 59. A warehouse worker uses a forklift to raise a crate of pickles on a platform to a height 2.75 m above the floor. The combined mass of the platform and the crate is 207 kg. If the power expended by the forklift is 1440 W, how long does it take to lift the crate? A) 37.2 s B) 5.81 s C) 3.87 s D) 18.6 s E) 1.86 s Ans: C Difficulty: Hard SectionDef: Section 6-7 60. A dam is used to block the passage of a river and to generate electricity. Approximately 5.73 × 10 4 kg of water fall each second through a height of 19.6 m. If 85 % of the gravitational potential energy of the water were converted to electrical energy, how much power would be generated? A) 9.36 × 10 6 W
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B) 1.52 × 10 7 W C) 1.08 × 10 7 W D) 1.35 × 10 8 W E) 4.68 × 10 6 W Ans: A Difficulty: Hard SectionDef: Section 6-7 61. The amount of energy needed to power a 0.10-kW bulb for one minute would be just sufficient to lift a 1.0-kg object through a vertical distance of A) 12 m B) 75 m C) 100 m D) 120 m E) 610 m Ans: E Difficulty: Medium SectionDef: Section 6-7 62. The graph shows the force component along the displacement as a function of the magnitude of the displacement. Determine the work done by the force during the interval from 2 to 10 m. A) 140 J B) 190 J C) 270 J D) 450 J E) 560 J Ans: B Difficulty: Medium SectionDef: Section 6-9
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63. The force component acting on an object along the displacement varies with the displacement s as shown in the graph. Determine the work done on the object as it travels from s = 0.0 to 12 m. A) 48 J B) 66 J C) 72 J D) 57 J E) 81 J Ans: B Difficulty: Medium SectionDef: Section 6-9 64. Which one of the following is not a unit of energy? A) foot pound B) kilowatt hour C) newton meter D) watt E) joule Ans: D Difficulty: Easy SectionDef: Additional Problems Reference: Ref 6-4 A 0.50-kg ball on the end of a rope is moving in a vertical circle of radius 3.0 m near the surface of the Earth where the acceleration due to gravity, g , is 9.8 m/s 2 . Point A is at the top of the circle; C is at the bottom. Points B and D are exactly halfway between A and C . 65. Which one of the following statements concerning the tension in the rope is true? A) The tension is smallest at A .
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B) The tension is smallest at C . C) The tension is smallest at both B and D . D) The tension is the same at A and C . E) The tension is the same at A , B , C , and D . Ans: A Refer To: Ref 6-4 Difficulty: Easy SectionDef: Additional Problems 66. The ball moves on the circle from A to C under the influence of gravity alone. If the kinetic energy of the ball is 35 J at A , what is its kinetic energy at C ? A) zero joules B) 29 J C) 35 J D) 44 J E) 64 J Ans: E Refer To: Ref 6-4 Difficulty: Medium SectionDef: Additional Problems 67. A motorist driving a 1000-kg car wishes to increase her speed from 20 m/s to 30 m/s in 5 s. Determine the horsepower required to accomplish this increase. Neglect friction. 1 hp is 746 watt A) 20 hp B) 30 hp C) 70 hp D) 80 hp E) 90 hp Ans: C Difficulty: Hard SectionDef: Additional Problems
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68. A top fuel dragster with a mass of 500.0 kg starts from rest and completes a quarter mile (402 m) race in a time of 5.0 s. The dragster's final speed is 130 m/s. Neglecting friction, what average power was needed to produce this final speed? A) 140 hp B) 750 hp C) 1100 hp D) 2.7 × 10 4 hp E) 8.5 × 10 5 hp Ans: C Difficulty: Hard SectionDef: Additional Problems Reference: Ref 6-5 A 12.5-kg crate slides along a horizontal frictionless surface at a constant speed of 4.0 m/s. The crate then slides down a frictionless incline and across a second horizontal surface as shown in the figure. 69. What is the kinetic energy of the crate as it slides on the upper surface? A) 30 J B) 80 J C) 100 J D) 200 J E) 490 J Ans: C Refer To: Ref 6-5 Difficulty: Medium SectionDef: Additional Problems 70. While the crate slides along the upper surface, how much gravitational potential energy does it have compared to what it would have on the lower surface? A) 80 J
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B) 100 J C) 240 J D) 370 J E) 490 J Ans: D Refer To: Ref 6-5 Difficulty: Medium SectionDef: Additional Problems 71. What is the speed of the crate when it arrives at the lower surface? A) 7.7 m/s B) 8.6 m/s C) 59 m/s D) 75 m/s E) 98 m/s Ans: B Refer To: Ref 6-5 Difficulty: Medium SectionDef: Additional Problems 72. What is the kinetic energy of the crate as it slides on the lower surface? A) 290 J B) 320 J C) 370 J D) 470 J E) 570 J Ans: D Refer To: Ref 6-5 Difficulty: Medium SectionDef: Additional Problems 73. What minimum coefficient of kinetic friction is required to bring the crate to a stop over a distance of 5.0 m along the lower surface?
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A) 0.30 B) 0.32 C) 0.60 D) 0.66 E) 0.76 Ans: E Refer To: Ref 6-5 Difficulty: Hard SectionDef: Additional Problems Reference: Ref 6-6 A rope exerts a force on a 20.0-kg crate. The crate starts from rest and accelerates upward at 5.00 m/s 2 near the surface of the earth. 74. What is the kinetic energy of the crate when it is 4.0 m above the floor? A) 400 J B) 250 J C) 116 J D) 704 J E) 1180 J Ans: A Refer To: Ref 6-6 Difficulty: Hard SectionDef: Additional Problems 75. How much work was done by the force in raising the crate 4.0 m above the floor? A) 399 J B) 250 J C) 116 J D) 704 J E) 1180 J
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Ans: E Refer To: Ref 6-6 Difficulty: Medium SectionDef: Additional Problems Reference: Ref 6-7 A 325-N force accelerates a 50.0-kg crate from rest along a horizontal frictionless surface for a distance of 20.0 m as shown in the figure. 76. What is the final speed of the crate? A) 11.4 m/s B) 16.1 m/s C) 32.2 m/s D) 131 m/s E) 259 m/s Ans: B Refer To: Ref 6-7 Difficulty: Hard SectionDef: Additional Problems 77. How much work is done on the crate? A) 1.62 × 10 2 J B) 7.70 × 10 2 J C) 3.82 × 10 3 J D) 6.50 × 10 3 J E) 1.50 × 10 4 J Ans: D
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Refer To: Ref 6-7 Difficulty: Medium SectionDef: Additional Problems 78. What coefficient of friction would be required to keep the crate moving at constant speed under the action of the 325-N force? A) 0.250 B) 0.321 C) 0.508 D) 0.663 E) 0.747 Ans: D Difficulty: Hard SectionDef: Additional Problems
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