Chapter 5: Linear Forces. Assignment 1. Galileo and Inertia (a) A ball is rolling with a velocity of 20 cm/sec and no outside force acts on it.

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1 Assignment 1 Galileo and Inertia 1 A ball is rolling with a velocity of 20 cm/sec and no outside force acts on it. 5 A 50-kg barbell can be lifted at a constant speed by exerting a force of 180 N on Planet X. Draw a free body diagram of the situation. Draw a free body diagram of the situation. (b) What will be its velocity after 5 seconds? What is the acceleration of gravity on Planet X? (b) If the same barbell is lifted on Earth the same way it was lifted on planet X, what minimal force is needed? 20 cm/sec 2 It takes a net force of 50 N to give a body an acceleration of 10 m/sec 2. Draw a free body diagram of the situation. (b) 3.6 m/s 2 (c) 4.9 x 10 2 N (b) What is the mass of the body? 6 A car has a mass of 1600 kg. If a braking force of 500 Newtons is applied to the car while it is in motion, what is 5.0 kg the direction and magnitude of the acceleration it produces? 3 A shot-putter exerts a net force of 140 N on a shot just beore it is released from his hand. The shot has an observed m/sec 2 acceleration of 19 m/s 2. Draw a free body diagram of the situation. (b) What is the mass of the shot? 7 A 65-kg swimmer steps horizontally off a 10-m tower. The swimmer comes to a stop 2 m below the surface of the water. Draw a free body diagram of the swimmer in free fall. 7.3 kg (b) Find the swimmer's velocity just before he hits the water. 4 You re new motorcycle weighs 2450 N. Draw the free body diagram of this situation (b) What is its mass in kilograms? (c) Draw the free body diagram of the forces on the swimmer as he enters the water. (d) Find the net force exerted by the water on the swimmer as he comes to rest below the surface of the water. (b) 250 kg (b) 14 m/s, (c) (d) 3185 N

2 Assignment 3 Defining Net Force--Newton's Second Law (d) 8 A shopper in a supermarket pushes a loaded 32 kg cart with a horizontal force of 12 N. 10 A kg baseball is thrown straight upward with an initial speed of 20.0 m/s as it just leaves your hand. Draw a free body diagram of the situation Draw a free body diagram of the situation (b) How far will the cart move in 3.5 s, starting from rest? (b) Draw a free body diagram of the forces on the ball (Disregard friction.) when it reaches half its maximum height? (c) What is the mass of the child? (c) What is the force on the ball when it reaches half its (d) What is the new acceleration of the cart? maximum height? (d) How far will the cart move in 3.5 s if the shopper (d) Draw a free body diagram of the forces on the ball places an 85 N child in the cart before pushing? when it reaches its peak? (e) What is the force on the ball when it reaches its peak? (Disregard air resistance.) (b) 2.3 m (c) 8.67 kg (d) (e) 1.8 m (b) (c) N 9 A 6.0 kg object undergoes an acceleration of 2.0 m/s 2 Draw a free body diagram of the situation (d) (e) N (b) What is the magnitude of the net external force acting on it? 11 A tow rope is used to pull a 1,750-kg car, giving it an acceleration of 1.35 m/s 2. (c) This same force is applied to a 4.0 kg object. Draw a Draw a free body diagram of the situation. free body diagram of the new situation. (b) What is the net force on the car? (d) What acceleration is produced? 2,362.5 N in the direction of the acceleration (b) 12 N (c) (d) 3.0 m/s 2

3 Assignment 1 Graphing Motion and Force (e) 12 The figure to the left shows the motion of a 20 kg ball. Calculate the net force during the 0-5 second time 13 The diagram to the left show the motion of a 2000 kg motor bike during a six second time interval. What is the observed accelration during 1-6 second (b) Calculate the net force during the 5-10 second time time (b) What is the Net Force during the 1-6 second time (c) Calculate the net force during the second time (d) Calculate the net force during the second time (e) Calculate the net force during the second time (b) 14 The graph to the left shows the motion of a runner moving during an eight second interval. What is the observed accelration during 1-6 second (b) time (c) (b) What is the Net Force during the 1-6 second time (d) (e) (b)

4 Assignment 2 Graphing Motion and Force (e) 15 The graph to the left shows the motion of a 5 kg object during a twelve second time interval 17 A single net force of 10 N acts on an object of mass m. The particle starts from rest and travels in a straight line a Calculate the net force during the 0-4 second time distance of 18 m in 6 s. Draw a free body diagram of the situation (b) Calculate the net force during the 4-8 second time (b) What is the observed acceleration of the particle? (c) Find its mass m. (c) Calculate the net force during the 8-12 second time (b) (c) 10 kg 18 David Purley, a racing driver, survived deceleration from 173 km/h to 0.0 km/h over a distance of m when his car crashed. Assume that Purley's mass is 70.0 kg. Draw a free body diagram of the forces on David Purley as he crashed into the wall. (b) What is the observed acceleration on David Purley? (c) What is the magnitude of the average force acting on David Purley during the crash? (b) (d) What is David Purley s weight? (c) (c) Compare the crash force to Purley's weight. 16 A net force of 9000 N is used to stop a 1500kg car traveling at 20 m/s. Draw a free body diagram of the situation. (b) What is the observed acceleration of the car? (c) What braking distance is needed to bring the car to a halt? (b) m/s 2 (c) x 10 5 N (d) 6.87 x 10 2 N (e) 178 times (b) (c) 33 m

5 Assignment 5 Kinematics and Force (f) 19 A 7.5 kg bowling ball initially at rest is dropped from the top of an 11 m building. It hits the ground 1.5 s later. 21 Imagine a landing craft approaching the surface of Callisto, one of Jupiter s moons. If the engine provides an upward Draw a free body diagram of the situation force (thrust) of 3260 N, the craft descends at a constant (b) What is the acceleration of the bowling ball? speed: If the engine provide only 2200 N, the craft (c) Find the net external force on the falling ball. accelerates downward at 0.39 m/s 2. Draw a free body diagram for the forces on the landing craft for both situations. (b) 9.8 m/s 2 (c) 74 N (b) What is the weight of the landing craft in the vicinity of Callisto's surface? (c) What is the mass of the craft? (d) What is the free fall acceleration near the surface of 20 In the figure below, the 10 kg block is attached to spring balances calibrated in Newton s. The system is accelerated Callisto? upward at the pulley with an acceleration of 5 m/s 2. Draw the free body diagram of the forces on the block. (b) Give the readings of the balance assuming that the (b) 3260 N strings are massless (c) 2.7 x 10 3 kg (d) -1.2 m/s 2 22 A spaceship lifts off vertically from the moon, where the free-fall acceleration is 1.6 m/s 2. An astronaut in the spaceship has an upward acceleration of 1.0 m/s 2 as it lifts off. Draw a free body diagram of the forces on the an astronaut in the spaceship. (b) What is the force of the spaceship on the astronaut who weighs 735 N on Earth? (b) 74 N (b) 195 N

6 Assignment 2 Lifts, Tensions, and Net Forces (g) 23 You need to lower a bundle of old roofing material weighing 100 Newtons to the ground with a rope that will 25 The parachute on a race car that weighs 8,820 N opens at the end of a quarter-mile run when the car is traveling 35 snap if the tension in it exceeds 87 Newtons. m/s. Draw a free body diagram of the forces on the bundle Draw the free body diagram of the forces on the car as of roofing material. the parachute opens. What is the net force on on the bundle? (b) What total retarding force must be supplied by the (b) What is the observed acceleration on the bundle? parachute to stop the car in a distance of 1100 m? (c) How can you avoid snapping the rope during the descent if you use only one ine? (d) If the descent is 20 m and you just barely avoid snapping the rope, with what speed will the bundle hit the ground? (b) -5.0 x 10 2 N (b) (c) lower (d) 7.13 m/s 26 Two lifeguards pull on ropes attached to a raft. If they pull in the same direction, the raft experiences a net external force of 334 N to the right. If they pull in opposite directions, the raft experiences a net external force of 105 N to the left. Draw a free-body diagram representing the raft for each 24 A 75 kg person escapes from a burning building by jumping from a window 25 m above a catching net. Assume that air resistance exerts a 95 N force on the person during the fall. situation. (b) Find the force exerted by each lifeguard on the raft. (Disregard any other forces acting on the raft.) Draw the free body diagram of the forces on the person as he is falling. (b) What is the net force on the falling body (c) What is the observed acceleration of the falling body (d) Determine the person's velocity just before he hits the net. (b) 114 N; 220 N (b) (c) (d) m/s 27 In a modified "tug-of-war" game, two people pull in opposite directions, not on a rope, but on a 25-kg block resting on a smooth surface. The participants exert forces of 90 N and 92 N. Draw a free body diagram of the forces on the block (b) What is the acceleration of the block? 0.08 m/s 2

7 Assignment 2 Lifts, Tensions, and Net Forces (g) 28 A vertical force T is exerted on a 5-kg body near the surface of the earth, as shown in the figure below. For each of the 30 Space-shuttle astronauts accelerate 35 m/s 2 during takeoff. Draw the free body diagram of the forces on an following situations draw the free body diagram before you astronaut seated in the space shuttle. find the acceleration. (b) What upward force does a 75 kg astronaut experience Find the acceleration of the body if T = 5 N. during an acceleration of this magnitude? (b) Find the acceleration of the body if T = 10 N. (c) Find the acceleration of the body if T = 100 N. (b) 3360 N 31 Two people pull on a 208 kg boat. If they pull in the same direction the boat has an acceleration of 1.52 m/s 2. If they pull in opposite directions, the boat has an acceleration of m/s 2 to the left. Draw a free body diagram for each situation. a = m/s 2 (b) What is the magnitude of the force exerted by each (b) a = m/s 2 person on the boat? (c) a = 10.2 m/s 2 29 A 1000-kg load is being moved by a crane. For each situation draw a free body diagram before you solve the problem. Find the tension in the cable that supports the load as it (b) 104 N 211 N is accelerated upward at 2 m/s 2. (b) Find the tension in the cable that supports the load as it is lifted at constant speed. (c) Find the tension in the cable that supports the load as it moves upward but its speed decreases by 2 m/s in each second. 11,810 N (b) 9810 N (c) T = 7810 N

8 Assignment 3 Lifts, Tensions, and Net Forces (g) 32 A boat moves through the water with two forces acting on it. One is a 2.10 x 10 3 N forward push by the motor, and the 35 The whale shark is the largest type of fish in the world. Its mass can be as large as 2.0 x 10 4 kg, which is the equivalent other is a 1.80 x 10 3 N resistive force due to the water. mass of three average adult elephants. Suppose a crane lifts Draw the free body diagram of the forces on the motor. a net with a 2.0 x 10 4 kg shark off the ground. The net is (b) What is the net force on the boat? steadily accelerated from rest over an interval of 0.80 s until (c) What is the acceleration of the 1200 kg boat? the net reaches a speed of 1.0 m/s. (d) If it starts from rest, how far will it move in 10.0 s? Draw a free body diagram of the forces on the whale (e) What will its velocity be at the end of this time shark. (b) Calculate the tension in the cable pulling the net. (b) (b) 2.21 x 10 5 N (c) 0.25 m/s 2 (d) 12.5 m (e) 2.5 m/s 36 The instruments attached to a weather balloon have a mass of 5.0 kg. The balloon is released and exerts an upward force of 98 N on the instruments. 33 A 5.0 kg bucket of water is raised from a well by a rope. The upward acceleration of the bucket is 23.0 m/s 2. Draw a free body diagram of the forces on the weather instruments from the balloon. Draw a free body diagram of the forces on the bucket (b) What is the acceleration of the balloon and (b) What is the net force on the bucket? instruments? (c) Find the force exerted by the rope on the bucket of (c) After the balloon has accelerated for 10 seconds, the water. instruments are released. Draw a free body diagram of this situation (d) What is the velocity of the instruments at the moment (b) (c) 164 N of their released? (d) What net force acts on the instruments at their release? (e) When does the direction of instruments velocity first become downward? 34 A 0.5 mm wire made of carbon and manganese can just barely support the weight of a 70.0 kg person. Suppose this wire is used to lift a 45.0 kg load. 9.8 m/s 2, up; Draw a free body diagram of the forces on the person (b) 98 m/s, up; described in the two situations above. (c) -49 N, down; (b) What maximum upward acceleration can be achieved (d) without breaking the wire? (e) 10 s 5.5 m/s 2

9 Assignment Lifts, Tensions, and Net Forces (g) 37 A rubber ball weighs 49 N. What is the mass of the ball? 41 The maximum force a grocery sack can withstand and not rip is 250 N. 20 kg of groceries are lifted from the floor to (b) What is the acceleration of the ball if an upward force the table with an acceleration of 5 m/s 2. of 69 N is applied? Draw a free body diagram of the forces on the grocery sack (b) Will the sack hold? 5.0 kg (b) 4.0 m/s 2 No, the sack will rip. 38 A small weather rocket weighs 14.7 N. What is its mass? (b) The rocket is carried up by a balloon is released from 42 A block is placed on a spring whose spring constant is 2.0 N/cm and compresses the spring 10 cm. the balloon and fired, and its engine exerts an upward force What is the weight of the block? of 10.2 N. What is the acceleration of the rocket? (b) What is the mass of the block? 1.50 kg 20 N (b) m/s 2 (b) 2.04 kg 39 A person fishing hooks a 2.0-kg fish on a line that can only sustain a maximum of 38 N of force before breaking. At 43 A vertical spring of force constant 400 N/m is attached to a 10-kg block resting on a horizontal surface so that the one point while reeling in the bass, it fights back with a spring exerts an upward force on the block. The spring is force of 40 N. stretched by 10 cm. Draw a free body diagram of the forces on the fish. Draw a free body diagram of the situation. (b) What is the minimum acceleration with which you must (b) What force does the spring exert on the block? play out the line during this time in order to keep the line (c) What is the force that the surface exerts on the block? from breaking? -1 m/s 2 (b) 40 N 40 A 4500-kg helicopter accelerates upward at 2 m/s 2. Draw a free body diagram of the forces on the helicopter. (b) What lift force is exerted by the air on the propellers? 44 (c) 58.1 N A 6-kg box slides on a frictionless horizontal surface. It is pulled by a horizontal spring with force constant of 800 N/m. If the spring is stretched 4 cm from its equilibrium position, what is the acceleration of the box? 5.3 x 10 4 N 5 1/3 m/s 2

10 Assignment 6 Elastic Forces--Springs (i) 45 A piece cut from a bicycle inner tube is stretched to a total length of 0.7 m long when it carries a load of 25 N. The 49 A slingshot consists of a light leather cup attached between two rubber bands. force constant k is 300 N/m. If it takes a force of 32 N to stretch the bands 1.2 cm, How far did the rubber tube stretch when 75 Newton s what is the equivalent spring constant of the rubber bands? of force were added? (b) How much force is required to pull the cup of this (b) What was the original length of the tube when no load slingshot 3.0 cm from its equilibrium position? was present. (Hint: You need to find the change in x---draw all three pictures) Hard 2.7 x 10 3 N/m (b) 81 N.25 (b).616 m 50 A load of 45 N attached to a spring that is hanging vertically stretches the spring m. What is the spring 46 If a mass of 0.55 kg attached to a vertical spring stretches the spring 2.0-cm from its equilibrium position, what is the constant? spring constant? 3.2 x 10 2 N/m 270 N/m 51 A pinball machine uses a spring that is compressed 4.0 cm to launch a ball. If the spring constant is 13 N/m, what is 47 A 76 N crate is attached to a spring (k = 450 N/m). How much displacement is caused by the weight of this crate? the force on the ball at the moment the spring is released? 0.52 N A spring of k = 1962 N/m loses its elasticity if stretched more than 50.0 cm. Suppose the spring described above is replaced with a spring that stretches 36 cm from its equilibrium position. What is the spring constant in this case? 52 In an arcade game, a 0.12 kg disk is shot across a frictionless horizontal surface by being compressed against a spring and then released. If the spring has a spring constant of 230 N/m and is compressed from its equilibrium position by 6.0 cm, what is the magnitude of the spring force on the disk at the moment it is released? (b) Is the second spring stiffer or less stiff than the first spring? 14 N 15 N/m (b) less stiff

11 Assignment 6 Elastic Forces--Springs (i) 53 Janet wants to find the spring constant of a given spring, so she hangs the spring vertically and attaches a 0.40 kg mass 57 The pygmy shrew has an average mass of 2.0 g. How many shrews of average mass must be placed on a spring scale to the spring's other end. If the spring stretches 3.0 cm from with a spring constant of 24 N/m to produce 4.0 cm its equilibrium position, what is the spring constant? compression? 130 N/m 49 pygmy sherews 54 In preparing to shoot an arrow, an archer pulls a bow string back 0.40 m by exerting a force that increases uniformly from 0 to 230 N. What is the equivalent spring constant of the bow? 58 The largest meteorite of lunar origin reportedly has a mass of 19 g. If the meteorite produces a compression of 2.24 mm when placed on a spring scale, what is the spring constant of the spring? 575 N/m 83 N/m 55 A child's toy consists of a piece of plastic attached to a spring, as shown in the figure. The spring is compressed 59 Rising 348 m above the ground, La Gran Piedra in Cuba is the tallest rock on Earth. Suppose an elastic band 2.00 x 10 2 against the floor a distance of 2.0 cm and released. If the m long hangs vertically off the top of La Gran Piedra. If the spring constant is 85 N/m, what is the magnitude of the band's spring constant is 25.0 N/m, how large must a mass spring force acting on the toy at the moment it is released? be if, when it is attached to the band, it causes the band to stretch all the way to the ground? 377 kg 60 Mauna Kea on the island of Hawaii stands 4200 m above sea level. However, when measured from the island's seaf 1.7 N 3.20 x 10-2 N/m, what force would stretch the spring to 1.02 x 10 4 m? 56 A spring of k = 1962 N/m loses its elasticity if stretched more than 50.0 cm. What is the mass of the heaviest object the spring can support without being damaged? 190 N 1.00 x 10 2 kg

12 Assignment 6 Elastic Forces--Springs (i) 61 In 1952, a great rainfall hit the island of Reunion in the Indian Ocean. In less than 24 h, 187 kg of rain fell on each 64 The largest known crab is a giant spider crab that had a mass of 18.6 kg. The distance from the end of one of this square meter of soil. If a 187 kg mass is placed on a spring crab's claws to the end of the other claw measured about 3.7 scale and the platform of the scale is compressed 12.0 cm m. If this particular giant spider crab were hung from an before it reaches equilibrium, what is the spring constant of elastic band so that the elongation of the band was equal to the spring? the crab's claw span, what would be the spring constant of the elastic band? 1.53 x 10 4 N/m 49 N/m 62 The largest ruby in the world may be found in New York. This ruby is 109 mm long, 91 mm wide, and 58 mm thick, making its volume about 575 cm 3. (By comparison, the 65 The CN Tower in Toronto, Canada, is 553 m tall, making it the world's tallest free-standing structure. Suppose an world's largest diamond, the Star of Africa, has a volume of unusually long bungee cord is attached to the top of the CN just over 30 cm 3.) If this ruby is attached to a vertically Tower. The equilibrium length of the cord is equal to one- hanging spring with a spring constant of 2.00 x 10 2 N/m so third the height of the tower. When a test mass of 70.0 kg is that the spring is stretched 15.8 cm, what is the mass of the attached, the cord stretches to a length that equals two- jewel? thirds of the tower's height. From this information, determine the spring constant of the bungee cord kg 3.87 N/m 63 The largest tigers, and therefore the largest members of the cat family, are the Siberian tigers. Male Siberian tigers are reported to have an average mass of about 389 kg. By 66 A net force of 55 N acts due west on an object. What added single force on the object produces equilibrium? contrast, a variety of very small cats that is native to India have an average adult mass of only 1.5 kg. Suppose this small cat is placed on a spring scale, causing the spring to be extended from its equilibrium position by 1.2 mm. How far would the spring be extended if a typical male Siberian 55 N due East tiger were placed on the same scale? 0.31 m

13 Assignment 6 Elastic Forces--Springs (i) 67 A spring is 6 cm long. When it is suspended vertically and a 200 g mass is hung from its lower end, its length increases 71 Suppose Joe, who weighs 625 N, stands on a bathroom scale calibrated in Newton s. to 7.5 cm. What force would the scale exert on Joe? In what What is the constant of the spring? direction? (b) What is the tension in the spring if it is stretched to 8.7 (b) If Joe now holds a 50-N cat in his arms, what force cm? would the scale exert on him? (c) After Joe puts down the cat, his father comes up behind him and lifts upward on his elbows with a 72-N force. What 1.34 N/cm force does the scale now exert on Joe? (b) 3.35 N 68 A spring which obeys Hooke's law is stretched 4 cm by a force of 6 N. 625 N upward (b) 675 N What is the value of k, the spring constant? (c) 553 N; upward (b) How much will the spring be stretched by a force of 1.5 N? 72 A 3.46 kg briefcase is sitting at rest on a level floor. What is its acceleration? (b) What is its weight in Newton s? 1.5 N/cm (c) What is it s normal force? (b) 1 cm 69 Answer the following questions. What are the dimensions of Hooke's constant? zero (b) 33.9 N (b) What are the dimensions of the spring constant? (c) What are the dimensions of the force constant? 73 A man stands on a scale in an elevator that has an upward acceleration a. The scale reads 960 N. When he picks up a 20- kg box, the scale reads 1200 N. Find the mass of the N/cm man, his weight, and the acceleration a. (b) N/cm (c) N/cm m = 80 kg, 70 A 250 g block is placed on top of a vertical spring with a spring constant k =2.5 N/cm. How much is the spring W = 785 N = 176 lb., a = 2.19 m/s 2 compressed? 980 c

14 Assignment 4 Elevators (k) 74 An elevator weighing 3500 kg. is pulled upward by a cable with an acceleration of 1.00 m/s A student stands on a bathroom scale in an elevator at rest on the 64th floor of a building. The scale reads 836 N. Draw a free body diagram of this situation. As the elevator moves up, the scale reading increases to (b) What is the tension in the cable? 935 N, then decreases back to 836 N. Draw a free body (c) The elevator is decelerating at a rate of 1.00 m/s 2 but is diagram which explains this situation still moving upward. Draw a free body diagram of this (b) Find the acceleration of the elevator. situation (c) As the elevator approaches the 74th floor, the scale (d) What is the tension in the elevator cable? reading drops as low as 782 N. Draw a free body diagram which explains this situation (d) What is the acceleration of the elevator? 37,835 N (c) (b) 30, 835 N. (e) Using your results from parts a and b, explain which change in velocity, starting or stopping, would take the longer time. (f) Draw the set of free body diagram which shows the elevator moving down (g) Explain the changes in the scale you would expect on the ride back down. (b) 1.2 m/s 2 ; (c) (d) m/s 2 ; (e) stopping, lower acceleration; (f) (g) scale reads less than 836 N, reads 836 N, then

15 Assignment 4 Elevators (k) 76 A lamp hangs vertically from a cord in a descending elevator that decelerates at 2.4 m/s A person weighing 490 N stands on a scale in an elevator. Draw a free body diagram for each situation. Draw a free body diagram of this situation. What does the scale read when the elevator is at rest? (b) If the tension in the cord is 89 N, what is the lamp's (b) What is the reading on the scale when the elevator rises mass? at a constant velocity? (c) The elevator ascends with an upward acceleration of (c) The rising elevator slows down at 2.2 m/s 2 as it reaches 2.4 m/s 2 the desired floor. What does the scale read? (d) What is the tension in the cord? (d) The elevator descends, accelerating at 2.7 m/s 2. What does the scale read? (e) What does the scale read when the elevator descends at (b) 7.29 kg (c) a constant velocity? (f) Suppose the cable snapped and the elevator fell freely. What would the scale read? (d) 89 N 77 Safety engineers estimate that an elevator can hold 20 persons of 75-kg average mass. The elevator itself has a mass of 500 kg. Tensile strength tests show that the cable supporting the elevator can tolerate a maximum force of 2.96 x 10 4 N. Draw a free body diagram of the situation 490 N (b) 490 N (c) 3.8 x 10 2 N (d) 3.6 x 10 2 N (e) 490 N (f) 0 (b) What is the greatest acceleration that the elevator's motor can produce without breaking the cable? 79 A 60-kg girl weighs herself by standing on a scale in an elevator. Draw a free body diagram for each situation. What does the scale read when the elevator is descending at a constant rate of 10 m/s, (b) What does the scale read when the elevator is (b) 5 m/s accelerating downward at 2 m/s 2, and (c) What does the scale read when the elevator is ascending at 10 m/s but its speed is decreasing by 2 m/s in each second? 588 N (b) 468 N (c) Same as part (b)

16 Assignment 6 Friction (l) 80 The largest hydraulic turbines in the world have shafts with individual masses that equal 3.18 x 10 5 kg. Suppose such a 82 A 35 kg crate is at rest on the floor. A man attempts to push it across the floor by applying a 110-N force shaft is delivered to the assembly line on a trailer that is horizontally. pulled with a horizontal force of 81.0 kn. If the force of Take the coefficient of static friction between the crate friction opposing the motion is 62.0 kn what is the net and the floor to be 0.37 and show that the crate does not acceleration of the trailer? move. (draw a free body diagram of the situation) (b) What is the maximum magnitude F s,max of the static frictional force under the circumstances? 5.97 x 10-2 m/s 2 (c) Does the crate move? (d) Suppose next, that a second worker pulls directly 81 A 20.0 kg trunk is pushed across the floor of a moving van by a horizontal force of 50.0 N. If the trunk moves with a upward on the crate to help out. What is the least pull she can exert that will allow the first worker's 110 N push to constant velocity determine the coefficient of kinetic move the crate? (hint draw a free body diagram of the friction between the trunk and the floor. situation) (e) If, instead, the second worker pulls horizontally to help out, what is the least pull she can exert to get the crate moving? (hint draw a free body diagram of the situation) 110 N (b) 130 N (c) no (d) 46 N (e) 17 N 83 A person applies a 220 N horizontal force to a 55 kg crate to push it across a level floor. If the coefficient of kinetic friction is 0.35> What is the magnitude of the frictional force? (b) What is the acceleration of the crate? 190 N (b) 0.56 m/s 2

17 Assignment 6 Friction (l) 84 In 1994, a commercial automobile accelerated from rest to 96.0 km/h in 3.07 s on a level road. Cars accelerate because 88 Cleopatra's Needle, an obelisk given by the Egyptian government to Great Britain in the late nineteenth century, of the force of static friction between their tires and the is more than 20 m tall and has a mass of roughly 1.89 x 10 5 road. Using this information, calculate the coefficient of kg. Suppose the monument is lowered onto its side and static friction between the tires and the road. dragged horizontally to a new location. Given that the magnitude of the acceleration of the monument is m/s 2 and the coefficient of kinetic friction is 0.100, calculate the magnitude of the force that must be applied to the monument in order to move it. 85 Until 1979, the world's easiest driving test was administered in Egypt. To pass the test, one only needed to drive about 6.00 m forward, stop, and drive the same distance in 2.08 x 10 5 N reverse. If a car's speed is 12.0 km/h at the end of the 6 m distance and the braking distance through which the car slides is 1.00 m, what is the coefficient of kinetic friction? 89 The heaviest train ever pulled by a single engine had a mass of x 10 7 kg and was over 2.00 km long. What force is needed to pull the train with a constant acceleration of m/s 2 on a horizontal track? The coefficient of kinetic friction between the train's wheels and the track is In 1988, a 3,500 kg telephone constructed by a Dutch telecommunications company was demonstrated in the 1.5 x 10 7 N Netherlands. Suppose this phone is towed horizontally by a horizontal force equal to 8,800 N. Given that the coefficient of kinetic friction is 0.12; calculate the magnitude of the net 90 Isaac Newton developed the laws of mechanics. Brian Newton put those laws into application when he ran a acceleration of the telephone. marathon in about 8.5 h while carrying a bag containing 51 kg of coal. (By doing this, he set a strange but impressive world record in 1983.) Suppose Brian Newton wants to 1.3 m/s 2 remove the bag from the finish line. He drags the bag with a horizontal force of 140 N. If the coefficient of kinetic 87 A blue whale with a mass of 1.90 x 10 5 kg was caught in What minimum force would be needed to pull the friction between the bag and the pavement is 0.16, what is the magnitude of the net acceleration of the bag? whale at a constant velocity along a horizontal ramp if the coefficient of kinetic friction between the ramp's surface and the whale were 0.160? 1 m/s x 10 5 N

18 Assignment 6 Friction (l) 91 A hockey puck is hit on a frozen lake and starts moving with a speed of 12.0 m/s. Exactly 5.00 s later, its speed is 94 The coefficient of static friction between the floor of a truck and a box resting on it is The truck is traveling at m/s. km/h. What is the least distance in which the truck can stop What is its average acceleration? if the box is not to slide? (b) What is the average value of the coefficient of kinetic friction between puck and ice? (c) How far does the puck travel during this 5.00 s A 25 kg chair initially at rest on a horizontal floor requires a 365 N horizontal force to set it in motion. Once the chair is -1.2 m/s in motion, a 327 N horizontal force keeps it moving at a (b) 0.12 constant velocity. (c) 45 m Find the coefficient of static friction between the chair and the floor. 92 The force that accelerates a car along a flat road is the frictional force exerted by the road on the car's tires. (b) Find the coefficient of kinetic friction between the chair and the floor. Explain why the acceleration can be greater when the wheels do not spin. (b) If a car is to accelerate from 0 to 90 km/h in 12 s at constant acceleration, what is the minimum coefficient of friction needed between the road and tires? a) 1.5 (b) A railroad flatcar is loaded with crates having a coefficient of static friction 0.25 with the floor. If the train is moving Since s > k in general, the car's acceleration is at 48 km/h, in how short a distance can the train be stopped greater when the wheels do not spin. without letting the crate slide? (b) A chair is sliding across a polished floor with an initial speed of 3 m/s. It comes to rest after sliding 2 m. What is m the coefficient of kinetic friction between the floor and chair? 97 You have to push with a force of 200 N to slide a refrigerator across a floor at constant velocity. What is the force of friction acting on the refrigerator? 0.229

19 Assignment 6 Friction (l) A box weighing 600 N is pushed along a horizontal floor at constant velocity with a force of 250 N parallel to the floor. What is the coefficient of kinetic friction between the box and the floor? The coefficient of static friction between the tires of a car and a horizontal road is m, = 0.6. If the net force on the car is the force of static friction exerted by the road, What is the maximum acceleration of the car? (b) What is the least distance in which the car can stop if it is initially traveling at 30 m/s? 5.89 m/s 2 (b) 76.5 m Answer the following questions. Estimate the maximum acceleration of a car if 40 percent of its weight is on the tires that are powered by the engine, and if the coefficient of static friction is 0.7. (b) What is the shortest possible time in which this car can achieve a speed of 100 km/h? Assume the engine has unlimited power m/s 2 (b) 10.1 s 102 If you use a horizontal force of 30.0 N to slide a 12.0-kg wooden crate across a floor at a constant velocity, what is the coefficient of sliding friction between crate and floor? A 35 kg box rests on the back of a truck. The coefficient of static friction between the box and the truck bed is When the truck accelerates forward, what happens to the box? (b) Find the maximum acceleration the truck can have before the box slides. If F, > ma, then the box stays in place, but if F, < ma, then the box will slide to the back of the truck bed. (b) 2.94 m/s You are driving a kg car at a constant speed of 14.0 m/s along an icy, but straight and level road. While approaching a traffic light, it turns red. You slam on the brakes. Your wheels lock, the tires begin skidding, and the car slides to a halt in a distance of 25.0 m. What is the coefficient of sliding friction (m) between your tires and the icy roadbed? The braking acceleration for a car based on data in a driver's handbook was m/s 2. If the car has a mass of 925 kg, find the frictional force and state the direction x 10 4 N, opposite direction of motion

20 Assignment 6 Friction (l) 105 A sled of mass 50 kg is pulled along snow-covered, flat ground. The static friction coefficient is 0.30, and the sliding friction coefficient is What does the sled weigh? (b) What force will be needed to start the sled moving? (c) What force is needed to keep the sled moving at a constant velocity? (d) Once moving, what total force must be applied to the sled to accelerate it 3.0 m/s 2? 4.9 x 10 2 ; (b) 150 N, static friction; (c) 49 N, sliding friction; (d) 2.0 x 10 2 N 108 A 200-kg crate is pushed horizontally with a force of 700 N. If the coefficient of friction is 0.20, calculate the acceleration of the crate. 1.5 m/s A force of 20 N accelerates a 9.0-kg wagon at 2.0 m/s 2 along the sidewalk How large is the frictional force? (b) What is the coefficient of friction? 2 N (b) 0.02 N 106 A bedroom bureau with a mass of 45 kg, including drawers and clothing, rests on the floor. If the coefficient of static friction between the bureau and the floor is 0.45, what is the minimum horizontal force a person must apply to start the bureau moving? (b) If the drawers and clothing, with 17.0 kg mass, are removed before the bureau is pushed, what is the minimum horizontal force required to start it moving? 200 N (b) A force of 40 N accelerates a 5.0-kg block at 6.0 m/s 2 along a horizontal surface. How large is the frictional force? (b) What is the coefficient of friction? 10 N (b) 0.20

21 Assignment 6 Friction (l) 110 A museum curator moves artifacts into place on many different display surfaces. Use the values in the table below 112 Although the frictional force between two surfaces may decrease as the surfaces are smoothed, it will increase if the to find F s, max and F k for the following situations: surfaces are made extremely smooth and flat. Explain. Moving a 145 kg aluminum sculpture across a horizontal steel platform (b) Pulling a 15 kg steel sword across a horizontal steel shield (c) Pushing a 227 kg wood bed on a wood floor Because the surfaces are closer together, the molecules can more easily bond. (d) Sliding a 0.55 kg glass amulet on a glass display case 113 The graph in the figure shows the relationship between the applied force and the force of friction. What is the relationship between the forces at point A? (b) What is the relationship between the forces at point B? N 668 N (b) 109 N 83.8 N (c) 900 N 444 N (d) 4.9 N 2N A massive metal object on a rough metal surface may undergo contact welding to that surface. Discuss how this affects the frictional forces that arise between object and surface. The frictional forces will increase. F s = F applied (b) F k < F applied 114 A car is traveling at 50.0 km/h on a flat highway. If the coefficient of friction between the road and the tires on a rainy day is , what is the minimum distance needed for the car to stop? (b) What is the stopping distance when the surface is dry and the coefficient of friction is 0.600? 98.5 m (b) 16.4 m

22 Assignment 6 Friction (l) 115 In order to drag a 100-kg log along the ground at constant velocity, you have to pull on it with a horizontal force of 118 The largest flowers in the world are the Rafflesia Arnoldii, found in Malaysia. A single flower is almost a meter across 300 N. and has a mass up to 11.0 kg. Suppose you cut off a single What is the resistive force exerted by the ground? flower and drag it along with a horizontal force of 42.0 N. (b) What force must you exert if you want to give the log If the flower's velocity is constant, what is the coefficient of an acceleration of 2 m/s 2? kinetic friction between the flower and the ground? N (b) 500 N 116 A sky diver falls through the air. As the speed of the sky diver increases, what happens to the sky diver's acceleration? (b) What is the acceleration when the sky diver reaches terminal speed? As the sky diver's speed increases, the acceleration decreases because the resistive force increases with increasing speed (b) Zero. 117 A 55 kg ice skater, initially at rest on a flat skating rink, requires a 198 N horizontal force to be set in motion. However, after the skater is in motion, a horizontal force of 175 N keeps her moving at a constant speed. Find the coefficients of static and kinetic friction between the skates and the ice. 0.37; 0.32

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