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Deck 6: Force and Motion II

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Question
A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force <strong>A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force as shown. The magnitude of frictional force is: </strong> A) T cos \theta B) T sin \theta C) zero D) mg E) mg cos \theta <div style=padding-top: 35px> as shown. The magnitude of frictional force is: <strong>A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force as shown. The magnitude of frictional force is: </strong> A) T cos \theta B) T sin \theta C) zero D) mg E) mg cos \theta <div style=padding-top: 35px>

A) T cos θ\theta
B) T sin θ\theta
C) zero
D) mg
E) mg cos θ\theta
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Question
A crate resting on a rough horizontal floor is to be moved horizontally. The coefficient of static friction is 0.40. To start the crate moving with the weakest possible applied force, in what direction should the force be applied?

A) Horizontal
B) 24 °\degree below the horizontal
C) 22 °\degree above the horizontal
D) 24 °\degree above the horizontal
E) 66 °\degree below the horizontal
Question
A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub> is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub><sub> </sub> B) P = f and N > F<sub>g</sub><sub> </sub> C) P > f and N < F<sub>g</sub> D) P > f and N = F<sub>g</sub> E) none of these <div style=padding-top: 35px> as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and Fg is the magnitude of the force of gravity. Which of the following must be true? <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub> is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub><sub> </sub> B) P = f and N > F<sub>g</sub><sub> </sub> C) P > f and N < F<sub>g</sub> D) P > f and N = F<sub>g</sub> E) none of these <div style=padding-top: 35px>

A) P = f and N = Fg
B) P = f and N > Fg
C) P > f and N < Fg
D) P > f and N = Fg
E) none of these
Question
The coefficient of kinetic friction:

A) is in the direction of the frictional force
B) is in the direction of the normal force
C) is the ratio of force to area
D) can have units of newtons
E) none of the above
Question
A brick slides on a horizontal surface. Which of the following will increase the frictional force on it?

A) Putting a second brick on top
B) Decreasing the surface area of contact
C) Increasing the surface area of contact
D) Decreasing the mass of the brick
E) None of the above
Question
A bureau rests on a rough horizontal surface ( μ\mu s = 0.50, μ\mu k = 0.40). A constant horizontal force, just sufficient to start the bureau in motion, is then applied. The acceleration of the bureau is:

A) 0
B) 0.98 m/s 2
C) 3.3 m/s 2
D) 4.5 m/s 2
E) 8.9 m/s 2
Question
A 400-N block is dragged along a horizonatl surface by an applied force <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb <div style=padding-top: 35px> as shown. The coefficient of kinetic friction is uk = 0.4 and the block moves at constant velocity. The magnitude of <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb <div style=padding-top: 35px> is: <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb <div style=padding-top: 35px>

A) 100 N
B) 150 N
C) 200 N
D) 290 N
E) 400 Nb
Question
A 24-N horizontal force is applied to a 40-N block initially at rest on a rough horizontal surface. Ifthe coefficients of friction are μ\mu s = 0.5 and μ\mu k = 0.4, the magnitude of the frictional force on the block is:

A) 8 N
B) 12 N
C) 16 N
D) 20 N
E) 400 N
Question
A 40-N crate rests on a rough horizontal floor. A 12-N horizonatl force is then applied to it. If the coefficients of friction are μ\mu s = 0.5 and μ\mu k = 0.4, the magnitude of the frictional force on the crate is:

A) 8 N
B) 12 N
C) 16 N
D) 20 N
E) 40 Nb
Question
The speed of a 4.0-N hockey puck, sliding across a level ice surface, decreases at the rate of 0.61 m/s2. The coefficient of kinetic friction between the puck and ice is:

A) 0.062
B) 0.41
C) 0.62
D) 1.2
E) 9.8
Question
A force <strong>A force (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:</strong> A) the object must be moving at constant speed B) and the friction force act in opposite directions C) the object must be slowing down D) the object must be speeding up E) the object must come to rest and remain at rest <div style=padding-top: 35px> (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:

A) the object must be moving at constant speed
B) <strong>A force (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:</strong> A) the object must be moving at constant speed B) and the friction force act in opposite directions C) the object must be slowing down D) the object must be speeding up E) the object must come to rest and remain at rest <div style=padding-top: 35px> and the friction force act in opposite directions
C) the object must be slowing down
D) the object must be speeding up
E) the object must come to rest and remain at rest
Question
A crate rests on a horizontal surface and a woman pulls on it with a 10-N force. No matter what the orientation of the force, the crate does not move. Rank the situations shown below according to the magnitude of the frictional force of the surface on the crate, least to greatest. <strong>A crate rests on a horizontal surface and a woman pulls on it with a 10-N force. No matter what the orientation of the force, the crate does not move. Rank the situations shown below according to the magnitude of the frictional force of the surface on the crate, least to greatest. </strong> A) 1, 2, 3 B) 2, 1, 3 C) 2, 3, 1 D) 1, 3, 2 E) 3, 2, 1 <div style=padding-top: 35px>

A) 1, 2, 3
B) 2, 1, 3
C) 2, 3, 1
D) 1, 3, 2
E) 3, 2, 1
Question
When the brakes of an automobile are applied, the road exerts the greatest retarding force:

A) while the wheels are sliding
B) just before the wheels start to slide
C) when the automobile is going fastest
D) when the acceleration is least
E) at the instant when the speed begins to change
Question
A block of mass m is pulled along a rough horizontal floor by an applied force <strong>A block of mass m is pulled along a rough horizontal floor by an applied force as shown. The vertical component of the force exerted on the block by the floor is: </strong> A) mg B) mg - T cos \theta C) mg + T cos \theta D) mg - T sin \theta E) mg + T sin \theta <div style=padding-top: 35px> as shown. The vertical component of the force exerted on the block by the floor is: <strong>A block of mass m is pulled along a rough horizontal floor by an applied force as shown. The vertical component of the force exerted on the block by the floor is: </strong> A) mg B) mg - T cos \theta C) mg + T cos \theta D) mg - T sin \theta E) mg + T sin \theta <div style=padding-top: 35px>

A) mg
B) mg - T cos θ\theta
C) mg + T cos θ\theta
D) mg - T sin θ\theta
E) mg + T sin θ\theta
Question
A car is traveling at 15 m/s on a horizontal road. The brakes are applied and the car skids to a stop in 4.0 s. The coefficient of kinetic friction between the tires and road is:

A) 0.38
B) 0.69
C) 0.76
D) 0.92
E) 1.11
Question
A 12-kg crate rests on a horizontal surface and a boy pulls on it with a force that is 30 °\degree below the horizontal. If the coefficient of static friction is 0.40, the minimum magnitude force he needs to start the crate moving is:

A) 44 N
B) 47 N
C) 54 N
D) 56 N
E) 71 N
Question
A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub><sub> </sub>is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub> B) P = f and N > F<sub>g</sub> C) P > f and N < F<sub>g</sub><sub> </sub> D) P > f and N = F<sub>g</sub><sub> </sub> E) none of these <div style=padding-top: 35px> as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and Fg is the magnitude of the force of gravity. Which of the following must be true? <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub><sub> </sub>is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub> B) P = f and N > F<sub>g</sub> C) P > f and N < F<sub>g</sub><sub> </sub> D) P > f and N = F<sub>g</sub><sub> </sub> E) none of these <div style=padding-top: 35px>

A) P = f and N = Fg
B) P = f and N > Fg
C) P > f and N < Fg
D) P > f and N = Fg
E) none of these
Question
A box with a weight of 50 N rests on a horizontal surface. A person pulls horizontally on it with a force of 10 N and it does not move. To start it moving, a second person pulls vertically upward on the box. If the coefficient of static friction is 0.4, what is the smallest vertical force for which the box moves? <strong>A box with a weight of 50 N rests on a horizontal surface. A person pulls horizontally on it with a force of 10 N and it does not move. To start it moving, a second person pulls vertically upward on the box. If the coefficient of static friction is 0.4, what is the smallest vertical force for which the box moves? </strong> A) 4 N B) 10 N C) 14 N D) 25 N E) 35 N <div style=padding-top: 35px>

A) 4 N
B) 10 N
C) 14 N
D) 25 N
E) 35 N
Question
A forward horizontal force of 12 N is used to pull a 240-N crate at constant velocity across a horizontal floor. The coefficient of friction is:

A) 0.5
B) 0.05
C) 2
D) 0.2
E) 20
Question
A horizontal shove of at least 200-N is required to start moving a 800-N crate initially at rest on a horizontal floor. The coefficient of static friction is:

A) 0.25
B) 0.125
C) 0.50
D) 4.00
E) none of these
Question
Block A, with a mass of 10 kg, rests on a 35 °\degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass mB, of block B, attached to the dangling end, for which A begins to slide down the incline is: <strong>Block A, with a mass of 10 kg, rests on a 35 \degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass m<sub>B</sub>, of block B, attached to the dangling end, for which A begins to slide down the incline is: </strong> A) 2.5 kg B) 3.5 kg C) 5.9 kg D) 9.0 kg E) 10.5 kg <div style=padding-top: 35px>

A) 2.5 kg
B) 3.5 kg
C) 5.9 kg
D) 9.0 kg
E) 10.5 kg
Question
A 50-N force is applied to a crate on a horizontal rough floor, causing it to move horizontally. If the coefficient of kinetic friction is 0.50, in what direction should the force be applied to obtain the greatest acceleration?

A) Horizontal
B) 60 °\degree above the horizontal
C) 30 °\degree above the horizontal
D) 27 °\degree above the horizontal
E) 30 °\degree below the horizontal
Question
Block A, with mass mA, is initially at rest on a horizontal floor. Block B, with mass mB, is initially at rest on the horizontal top surface of A. The coefficient of static friction between the two blocks is μ\mu s. Block A is pulled with a horizonatal force. It begins to slide out from under B if the force is greater than:

A) mAg
B) mBg
C) μ\mu smAg
D) μ\mu smBg
E) μ\mu s ( mA + mB)g
Question
A professor holds an eraser against a vertical chalkboard by pushing horizontally on it. He pushes with a force that is much greater than is required to hold the eraser. The force of friction exerted by the board on the eraser increases if he:

A) pushes with slightly greater force
B) pushes with slightly less force
C) stops pushing
D) pushes so his force is slightly downward but has the same magnitude
E) pushes so his force is slightly upward but has the same magnitude
Question
A 5.0-kg crate is resting on a horizontal plank. The coefficient of static friction is 0.50 and the coefficient of kinetic friction is 0.40. After one end of the plank is raised so the plank makes an angle of 30 °\degree with the horizontal, the force of friction is:

A) 0
B) 18 N
C) 21 N
D) 22 N
E) 44 N
Question
A box rests on a rough board 10 meters long. When one end of the board is slowly raised to a height of 6 meters above the other end, the box begins to slide. The coefficient of static friction is:

A) 0.8
B) 0.25
C) 0.4
D) 0.6
E) 0.75
Question
A horizontal force of 5.0 N pushes a 0.50-kg block against a vertical wall. The block is initially at rest. If μ\mu s = 0.6 and μ\mu k = 0.80, the frictional force is:

A) 0
B) 4.9 N
C) 3.0 N
D) 5.0 N
E) 4.0 N
Question
The system shown remains at rest. The force of friction on the upper block is: <strong>The system shown remains at rest. The force of friction on the upper block is: </strong> A) 4 N B) 8 N C) 12 N D) 16 N E) 20 N <div style=padding-top: 35px>

A) 4 N
B) 8 N
C) 12 N
D) 16 N
E) 20 N
Question
A horizontal force of 5.0 N pushes a 0.50-kg block against a vertical wall. The block is initially at rest. If μ\mu s = 0.60 and μ\mu k = 0.80, the acceleration of the block in m/s2 is:

A) 0
B) 1.8
C) 6.0
D) 8.0
E) 9.8
Question
A block is first placed on its long side and then on its short side on the same inclined plane. The block slides down the plane on its short side but remains at rest on its long side. A possible explanation is: <strong>A block is first placed on its long side and then on its short side on the same inclined plane. The block slides down the plane on its short side but remains at rest on its long side. A possible explanation is: </strong> A) the short side is smoother B) the frictional force is less because the contact area is less C) the center of gravity is higher in the second case D) the normal force is less in the second case E) the force of gravity is more nearly down the plane in the second case <div style=padding-top: 35px>

A) the short side is smoother
B) the frictional force is less because the contact area is less
C) the center of gravity is higher in the second case
D) the normal force is less in the second case
E) the force of gravity is more nearly down the plane in the second case
Question
Block A, with a mass of 50 kg, rests on a horizontal table top. The coefficient of static friction is 0.40. A horizontal string is attached to A and passes over a massless, frictionless pulley as shown. The smallest mass mB of block B, attached to the dangling end, that will start A moving when it is attached to the other end of the string is: <strong>Block A, with a mass of 50 kg, rests on a horizontal table top. The coefficient of static friction is 0.40. A horizontal string is attached to A and passes over a massless, frictionless pulley as shown. The smallest mass m<sub>B</sub> of block B, attached to the dangling end, that will start A moving when it is attached to the other end of the string is: </strong> A) 20 kg B) 30 kg C) 40 kg D) 50 kg E) 70 kg <div style=padding-top: 35px>

A) 20 kg
B) 30 kg
C) 40 kg
D) 50 kg
E) 70 kg
Question
A 5.0-kg crate is on an incline that makes an angle of 30 °\degree with the horizontal. If the coefficient of static friction is 0.50, the minimum force that can be applied parallel to the plane to hold the crate at rest is:

A) 0
B) 3.3 N
C) 30 N
D) 46 N
E) 55 N
Question
A 5.0-kg crate is resting on a horizontal plank. The coefficient of static friction is 0.50 and the coefficient of kinetic friction is 0.40. After one end of the plank is raised so the plank makes an angle of 25 °\degree with the horizontal, the force of friction is:

A) 0
B) 18 N
C) 21 N
D) 22 N
E) 44 N
Question
Block A, with a mass of 10 kg, rests on a 35 °\degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass mB, attached to the dangling end, for which A remains at rest is: <strong>Block A, with a mass of 10 kg, rests on a 35 \degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass m<sub>B</sub>, attached to the dangling end, for which A remains at rest is: </strong> A) 2.5 kg B) 3.5 kg C) 5.9 kg D) 9.0 kg E) 10.5 kg <div style=padding-top: 35px>

A) 2.5 kg
B) 3.5 kg
C) 5.9 kg
D) 9.0 kg
E) 10.5 kg
Question
A block is placed on a rough wooden plane. It is found that when the plane is tilted 30 °\degree to the horizontal, the block will slide down at constant speed. The coefficient of kinetic friction of the block with the plane is:

A) 0.500
B) 0.577
C) 1.73
D) 0.866
E) 4.90
Question
A horizontal force of 12 N pushes a 0.5-kg bookk against a vertical wall. The book is initially at rest. If the coefficients of friction are μ\mu s = 0.6 and μ\mu k = 0.8 which of the following is true?

A) The frictional force is 4.9 N
B) The frictional force is 7.2 N
C) The normal force is 4.9 N
D) The block will start moving and accelerate
E) If started moving downward, the block will decelerate
Question
A 5.0-kg crate is on an incline that makes an angle 30 °\degree with the horizontal. If the coefficent of static friction is 0.5, the maximum force that can be applied parallel to the plane without moving the crate is:

A) 0
B) 3.3 N
C) 30 N
D) 46 N
E) 55 N
Question
A heavy wooden block is dragged by a force <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force. <div style=padding-top: 35px> along a rough steel plate, as shown below for two possible situations. The magnitude of <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force. <div style=padding-top: 35px> is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force. <div style=padding-top: 35px>

A) the same
B) greater
C) less
D) less for some angles and greater for others
E) can be less or greater, depending on the magnitude of the applied force.
Question
A crate is sliding down an incline that is 35 °\degree above the horizontal. If the coefficient of kinetic friction is 0.40, the acceleration of the crate is:

A) 0
B) 2.4 m/s2
C) 5.8 m/s2
D) 8.8 m/s2
E) 10.3 m/s2
Question
A horizontal force of 12 N pushes a 0.50-kg book against a vertical wall. The book is initially at rest. If μ\mu s = 0.6 and μ\mu k = 0.80, the acceleration of the book in m/s2 is:

A) 0
B) 9.4 m/s2
C) 9.8 m/s2
D) 14.4 m/s2
E) 19.2 m/s2
Question
A ball is thrown downward from the edge of a cliff with an initial speed that is three times the terminal speed. Initially its acceleration is

A) upward and greater than g
B) upward and less than g
C) downward and greater than g
D) downward and less than g
E) downward and equal to g
Question
An 800-N passenger in a car, presses against the car door with a 200 N force when the car makes a left turn at 13 m/s. The (faulty) door will pop open under a force of 800 N. Of the following, the least speed for which the man is thrown out of the car is:

A) 14 m/s
B) 19 m/s
C) 20 m/s
D) 26 m/s
E) 54 m/s
Question
A 0.2-kg stone is attached to a string and swung in a circle of radius 0.6 m on a horizontal and frictionless surface. If the stone makes 150 revolutions per minute, the tension force of the string on the stone is:

A) 0.03 N
B) 0.2 N
C) 0.9 N
D) 1.96 N
E) 30 N
Question
Why do raindrops fall with constant speed during the later stages of their descent?

A) The gravitational force is the same for all drops
B) Air resistance just balances the force of gravity
C) The drops all fall from the same height
D) The force of gravity is negligible for objects as small as raindrops
E) Gravity cannot increase the speed of a falling object to more than 32 ft/s
Question
If a satellite moves above the Earth's atmosphere in a circular orbit with constant speed, then:

A) its acceleration and velocity are in the same direction
B) the net force on it is zero
C) its velocity is constant
D) it will fall back to Earth when its fuel is used up
E) its acceleration is toward the Earth
Question
The magnitude of the force required to cause an 0.04-kg object to move at 0.6 m/s in a circle of radius 1.0 m is:

A) 2.4 * 10-2 N
B) 1.4 * 10-2 N
C) 1.4 π\pi *10-2 N
D) 2.4 π\pi 2 *10-2 N
E) 3.13 N
Question
An object moves around a circle. If the radius is doubled keeping the speed the same then the magnitude of the contripetal force must be:

A) twice as great
B) half as great
C) four times as great
D) one-fourth as great
E) the same
Question
An object moving in a circle at constant speed:

A) must have only one force acting on it
B) is not accelerating
C) is held to its path by centrifugal force
D) has an acceleration of constant magnitude
E) has an acceleration that is tangent to the circle
Question
Block A, with a mass of 10 kg, rests on a 30 °\degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 8.0 kg, is attached to the dangling end of the string. The acceleration of B is: <strong>Block A, with a mass of 10 kg, rests on a 30 \degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 8.0 kg, is attached to the dangling end of the string. The acceleration of B is: </strong> A) 0.69 m/s<sup>2</sup>, up the plane B) 0.69 m/s<sup>2</sup>, down the plane C) 2.6 m/s<sup>2</sup>, up the plane D) 2.6 m/s<sup>2</sup>, down the plane E) 0 <div style=padding-top: 35px>

A) 0.69 m/s2, up the plane
B) 0.69 m/s2, down the plane
C) 2.6 m/s2, up the plane
D) 2.6 m/s2, down the plane
E) 0
Question
A 1000-kg airplane moves in straight flight at constant speed. The force of air friction is 1800 N. The net force on the plane is:

A) zero
B) 11800 N
C) 1800 N
D) 9800 N
E) none of these
Question
Which of the following five graphs is correct for a particle moving in a circle of radius r at a constant speed of 10 m/s? <strong>Which of the following five graphs is correct for a particle moving in a circle of radius r at a constant speed of 10 m/s? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px>

A) I
B) II
C) III
D) IV
E) V
Question
An object of mass m and another object of mass 2m are each forced to move along a circle of radius 1.0 m at a constant speed of 1.0 m/s. The magnitudes of their accelerations are:

A) equal
B) <strong>An object of mass m and another object of mass 2m are each forced to move along a circle of radius 1.0 m at a constant speed of 1.0 m/s. The magnitudes of their accelerations are:</strong> A) equal B) C) in the ratio of 2 : 1 D) in the ratio of 4 : 1 E) zero <div style=padding-top: 35px>
C) in the ratio of 2 : 1
D) in the ratio of 4 : 1
E) zero
Question
Uniform circular motion is the direct consequence of:

A) Newton's third law
B) a force that is always tangent to the pathe
C) an acceleration tangent to the path
D) a force of constant magnitude that is always directed away from the same fixed point
E) a force of constant magnitude that is always directed toward the same fixed point
Question
An object moves in a circle. If the mass is tripled, the speed halved and the radius unchanged then the magnitude of the centripetal force must be multiplied by a factor of:

A) 3/2
B) 3/4
C) 9/4
D) 6
E) 12
Question
A ball is thrown upward into the air with a speed that is greater than terminal speed. It lands at the place where it was thrown. During its flight the force of air resistance is the greatest:

A) just after it is thrown
B) halfway up
C) at the top of its trajectory
D) halfway down
E) just before it lands
Question
An automobile moves on a level horizontal road in a circle of radius 30 m. The coefficient of friction between tires and road is 0.50. The maximum speed with which this car can round this curve is:

A) 3.0 m/s
B) 4.9 m/s
C) 9.8 m/s
D) 12 m/s
E) 13 m/s
Question
Block A, with a mass of 10 kg, rests on a 30 °\degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 3.0 kg, is attached to the dangling end of the string. The acceleration of B is: <strong>Block A, with a mass of 10 kg, rests on a 30 \degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 3.0 kg, is attached to the dangling end of the string. The acceleration of B is: </strong> A) 0.20 m/s<sup>2</sup>, up B) 0.20 m/s<sup>2</sup>, down C) 2.8 m/s<sup>2</sup>, up D) 2.8 m/s<sup>2</sup>, down E) 0 <div style=padding-top: 35px>

A) 0.20 m/s2, up
B) 0.20 m/s2, down
C) 2.8 m/s2, up
D) 2.8 m/s2, down
E) 0
Question
A ball is thrown upward into the air with a speed that is greater than terminal speed. On the way up it slows down and, after its speed equals the terminal speed but before it gets to the top of its trajectory:

A) its speed is constant
B) it continues to slow down
C) it speeds up
D) its motion becomes jerky
E) none of the above
Question
If a certain car, going with speed v1, rounds a level curve with a radius R1, it is just on the verge of skidding. If its speed is now doubled, the radius of the tightest curve on the same road that it can round without skidding is:

A) 2R1
B) 4R1
C) R1/2
D) R1/4
E) R1
Question
The driver of a 1000-kg car tries to turn through a circle of radius 100 m on an unbanked curve at a speed of 10 m/s. The actual frictional force between the tires and a slippery road has a magnitude of 900 N. The car:

A) slides into the inside of the curve
B) makes the turn
C) slows down due to the frictinal force
D) makes the turn only if it goes faster
E) slides off to the outside of the curve
Question
A giant wheel, having a diameter of 40 m, is fitted with a cage and platform on which a man of mass m stands. The wheel is rotated in a vertical plane at such a speed that the force exerted by the man on the platform is equal to his weight when the cage is at X, as shown. The net force on the man at point X is: <strong>A giant wheel, having a diameter of 40 m, is fitted with a cage and platform on which a man of mass m stands. The wheel is rotated in a vertical plane at such a speed that the force exerted by the man on the platform is equal to his weight when the cage is at X, as shown. The net force on the man at point X is: </strong> A) zero B) mg, down C) mg, up D) 2 mg, down E) 2 mg, up <div style=padding-top: 35px>

A) zero
B) mg, down
C) mg, up
D) 2 mg, down
E) 2 mg, up
Question
A coin is placed on a horizontal phonograph turntable. Let N be the normal force exerted by the turntable on the coin, f be the frictional force exerted by the turntable on the coin, and fs, max be the maximum force of the static friction. The speed of the turntable is increased in small steps. If the coin does not slide, then

A) N increases, f increases, and fs, max stays the same
B) N increases, f increases, and fs, max increases
C) f increases and both N and fs, max stay the same
D) N, f, and fs, max all stay the same
E) N, f, and fs, max all increase
Question
A giant wheel, 40 m in diameter, is fitted with a cage and platform on which a man can stand. The wheel rotates at such a speed that when the cage is at X (as shown) the force exerted by the man on the platform is equal to his weight. The speed of the man is: <strong>A giant wheel, 40 m in diameter, is fitted with a cage and platform on which a man can stand. The wheel rotates at such a speed that when the cage is at X (as shown) the force exerted by the man on the platform is equal to his weight. The speed of the man is: </strong> A) 14 m/s B) 20 m/s C) 28 m/s D) 80 m/s E) 120 m/s <div style=padding-top: 35px>

A) 14 m/s
B) 20 m/s
C) 28 m/s
D) 80 m/s
E) 120 m/s
Question
One end of a 1.0-m long string is fixed, the other end is attached to a 2.0-kg stone. The stone swings in a vertical circle, passing the bottom point at 4.0 m/s. The tension force of the string (in newtons) at this point is about:

A) 0
B) 12
C) 20
D) 32
E) 52
Question
Circular freeway entrance and exit ramps are commonly banked to handle a car moving at 13 m/s. To design a similar ramp for 26 m/s one should:

A) increase radius by factor of 2
B) decrease radius by factor of 2
C) increase radius by factor of 4
D) decrease radius by factor of 4
E) <strong>Circular freeway entrance and exit ramps are commonly banked to handle a car moving at 13 m/s. To design a similar ramp for 26 m/s one should:</strong> A) increase radius by factor of 2 B) decrease radius by factor of 2 C) increase radius by factor of 4 D) decrease radius by factor of 4 E) <div style=padding-top: 35px>
Question
The iron ball shown is being swung in a vertical circle at the end of a 0.7-m string. How slowly, in ft/s, can the ball go through its top position without having the string go slack? <strong>The iron ball shown is being swung in a vertical circle at the end of a 0.7-m string. How slowly, in ft/s, can the ball go through its top position without having the string go slack? </strong> A) 1.3 m/s B) 2.6 m/s C) 3.9 m/s D) 6.9 m/s E) 9.8 m/s <div style=padding-top: 35px>

A) 1.3 m/s
B) 2.6 m/s
C) 3.9 m/s
D) 6.9 m/s
E) 9.8 m/s
Question
At what angle should the roadway on a curve with a 50m radius be banked to allow cars to negotiate the curve at 12 m/s even if the roadway is icy (and the frictional force is zero)?

A) 0
B) 16°
C) 18°
D) 35°
E) 73°
Question
A person riding a Ferris wheel is strapped into her seat by a seat belt. The wheel is spun so that the centripetal acceleration is g. Select the correct combination of forces that act on her when she is at the top. In the table, Fg = force of gravity, down; Fb = seat belt force, down; and Fs = seat force, up.

A) Fg = 0, Fb = mg, Fs = 0
B) Fg = mg, Fb = 0, Fs = 0
C) Fg = 0, Fb = 0, Fs = mg
D) Fg = mg, Fb = mg, Fs = 0
E) Fg = mg, Fb = 0, Fs = mg
Question
A car rounds a 75-m radius curve at a constant speed of 18 m/s. A ball is suspended by a string from the ceiling the car and moves with the car. The angle between the string and the verticle is:

A) 0
B) 1.4°
C) 24°
D) 90°
E) cannot be found without knnowing the mass of the ball
Question
A block is suspended by a rope from the ceiling of a car.. When the car rounds a 45-m radius horizontal curve at 22 m/s (about 50 mph), what angle does the rod make with the vertical?

A) 0
B) 25 °\degree
C) 42 °\degree
D) 65 °\degree
E) 90 °\degree
Question
One end of a 1.0-m string is fixed, the other end is attached to a 2.0-kg stone. The stone swings in a vertical circle, passing the top point at 4.0 m/s. The tension force of the string (in newtons) at this point is about:

A) 0
B) 12
C) 20
D) 32
E) 52
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Deck 6: Force and Motion II
1
A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force <strong>A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force as shown. The magnitude of frictional force is: </strong> A) T cos \theta B) T sin \theta C) zero D) mg E) mg cos \theta as shown. The magnitude of frictional force is: <strong>A block of mass m is pulled at constant velocity along a rough horizonatl floor by and applied force as shown. The magnitude of frictional force is: </strong> A) T cos \theta B) T sin \theta C) zero D) mg E) mg cos \theta

A) T cos θ\theta
B) T sin θ\theta
C) zero
D) mg
E) mg cos θ\theta
T cos θ\theta
2
A crate resting on a rough horizontal floor is to be moved horizontally. The coefficient of static friction is 0.40. To start the crate moving with the weakest possible applied force, in what direction should the force be applied?

A) Horizontal
B) 24 °\degree below the horizontal
C) 22 °\degree above the horizontal
D) 24 °\degree above the horizontal
E) 66 °\degree below the horizontal
22 °\degree above the horizontal
3
A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub> is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub><sub> </sub> B) P = f and N > F<sub>g</sub><sub> </sub> C) P > f and N < F<sub>g</sub> D) P > f and N = F<sub>g</sub> E) none of these as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and Fg is the magnitude of the force of gravity. Which of the following must be true? <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub> is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub><sub> </sub> B) P = f and N > F<sub>g</sub><sub> </sub> C) P > f and N < F<sub>g</sub> D) P > f and N = F<sub>g</sub> E) none of these

A) P = f and N = Fg
B) P = f and N > Fg
C) P > f and N < Fg
D) P > f and N = Fg
E) none of these
P > f and N < Fg
4
The coefficient of kinetic friction:

A) is in the direction of the frictional force
B) is in the direction of the normal force
C) is the ratio of force to area
D) can have units of newtons
E) none of the above
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5
A brick slides on a horizontal surface. Which of the following will increase the frictional force on it?

A) Putting a second brick on top
B) Decreasing the surface area of contact
C) Increasing the surface area of contact
D) Decreasing the mass of the brick
E) None of the above
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6
A bureau rests on a rough horizontal surface ( μ\mu s = 0.50, μ\mu k = 0.40). A constant horizontal force, just sufficient to start the bureau in motion, is then applied. The acceleration of the bureau is:

A) 0
B) 0.98 m/s 2
C) 3.3 m/s 2
D) 4.5 m/s 2
E) 8.9 m/s 2
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7
A 400-N block is dragged along a horizonatl surface by an applied force <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb as shown. The coefficient of kinetic friction is uk = 0.4 and the block moves at constant velocity. The magnitude of <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb is: <strong>A 400-N block is dragged along a horizonatl surface by an applied force as shown. The coefficient of kinetic friction is u<sub>k</sub> = 0.4 and the block moves at constant velocity. The magnitude of is: </strong> A) 100 N B) 150 N C) 200 N D) 290 N E) 400 Nb

A) 100 N
B) 150 N
C) 200 N
D) 290 N
E) 400 Nb
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8
A 24-N horizontal force is applied to a 40-N block initially at rest on a rough horizontal surface. Ifthe coefficients of friction are μ\mu s = 0.5 and μ\mu k = 0.4, the magnitude of the frictional force on the block is:

A) 8 N
B) 12 N
C) 16 N
D) 20 N
E) 400 N
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9
A 40-N crate rests on a rough horizontal floor. A 12-N horizonatl force is then applied to it. If the coefficients of friction are μ\mu s = 0.5 and μ\mu k = 0.4, the magnitude of the frictional force on the crate is:

A) 8 N
B) 12 N
C) 16 N
D) 20 N
E) 40 Nb
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10
The speed of a 4.0-N hockey puck, sliding across a level ice surface, decreases at the rate of 0.61 m/s2. The coefficient of kinetic friction between the puck and ice is:

A) 0.062
B) 0.41
C) 0.62
D) 1.2
E) 9.8
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11
A force <strong>A force (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:</strong> A) the object must be moving at constant speed B) and the friction force act in opposite directions C) the object must be slowing down D) the object must be speeding up E) the object must come to rest and remain at rest (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:

A) the object must be moving at constant speed
B) <strong>A force (larger than the largest possible force of static friction) is applied to the left to an object moving to the right on a horizontal surface. Then:</strong> A) the object must be moving at constant speed B) and the friction force act in opposite directions C) the object must be slowing down D) the object must be speeding up E) the object must come to rest and remain at rest and the friction force act in opposite directions
C) the object must be slowing down
D) the object must be speeding up
E) the object must come to rest and remain at rest
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12
A crate rests on a horizontal surface and a woman pulls on it with a 10-N force. No matter what the orientation of the force, the crate does not move. Rank the situations shown below according to the magnitude of the frictional force of the surface on the crate, least to greatest. <strong>A crate rests on a horizontal surface and a woman pulls on it with a 10-N force. No matter what the orientation of the force, the crate does not move. Rank the situations shown below according to the magnitude of the frictional force of the surface on the crate, least to greatest. </strong> A) 1, 2, 3 B) 2, 1, 3 C) 2, 3, 1 D) 1, 3, 2 E) 3, 2, 1

A) 1, 2, 3
B) 2, 1, 3
C) 2, 3, 1
D) 1, 3, 2
E) 3, 2, 1
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13
When the brakes of an automobile are applied, the road exerts the greatest retarding force:

A) while the wheels are sliding
B) just before the wheels start to slide
C) when the automobile is going fastest
D) when the acceleration is least
E) at the instant when the speed begins to change
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14
A block of mass m is pulled along a rough horizontal floor by an applied force <strong>A block of mass m is pulled along a rough horizontal floor by an applied force as shown. The vertical component of the force exerted on the block by the floor is: </strong> A) mg B) mg - T cos \theta C) mg + T cos \theta D) mg - T sin \theta E) mg + T sin \theta as shown. The vertical component of the force exerted on the block by the floor is: <strong>A block of mass m is pulled along a rough horizontal floor by an applied force as shown. The vertical component of the force exerted on the block by the floor is: </strong> A) mg B) mg - T cos \theta C) mg + T cos \theta D) mg - T sin \theta E) mg + T sin \theta

A) mg
B) mg - T cos θ\theta
C) mg + T cos θ\theta
D) mg - T sin θ\theta
E) mg + T sin θ\theta
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15
A car is traveling at 15 m/s on a horizontal road. The brakes are applied and the car skids to a stop in 4.0 s. The coefficient of kinetic friction between the tires and road is:

A) 0.38
B) 0.69
C) 0.76
D) 0.92
E) 1.11
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16
A 12-kg crate rests on a horizontal surface and a boy pulls on it with a force that is 30 °\degree below the horizontal. If the coefficient of static friction is 0.40, the minimum magnitude force he needs to start the crate moving is:

A) 44 N
B) 47 N
C) 54 N
D) 56 N
E) 71 N
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17
A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub><sub> </sub>is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub> B) P = f and N > F<sub>g</sub> C) P > f and N < F<sub>g</sub><sub> </sub> D) P > f and N = F<sub>g</sub><sub> </sub> E) none of these as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and Fg is the magnitude of the force of gravity. Which of the following must be true? <strong>A boy pulls a wooden box along a rough horizontal floor at constant speed by means of a force as shown. In the diagram f is the magnitude of the force of friction, N is the magnitude of the normal force, and F<sub>g</sub><sub> </sub>is the magnitude of the force of gravity. Which of the following must be true? </strong> A) P = f and N = F<sub>g</sub> B) P = f and N > F<sub>g</sub> C) P > f and N < F<sub>g</sub><sub> </sub> D) P > f and N = F<sub>g</sub><sub> </sub> E) none of these

A) P = f and N = Fg
B) P = f and N > Fg
C) P > f and N < Fg
D) P > f and N = Fg
E) none of these
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18
A box with a weight of 50 N rests on a horizontal surface. A person pulls horizontally on it with a force of 10 N and it does not move. To start it moving, a second person pulls vertically upward on the box. If the coefficient of static friction is 0.4, what is the smallest vertical force for which the box moves? <strong>A box with a weight of 50 N rests on a horizontal surface. A person pulls horizontally on it with a force of 10 N and it does not move. To start it moving, a second person pulls vertically upward on the box. If the coefficient of static friction is 0.4, what is the smallest vertical force for which the box moves? </strong> A) 4 N B) 10 N C) 14 N D) 25 N E) 35 N

A) 4 N
B) 10 N
C) 14 N
D) 25 N
E) 35 N
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19
A forward horizontal force of 12 N is used to pull a 240-N crate at constant velocity across a horizontal floor. The coefficient of friction is:

A) 0.5
B) 0.05
C) 2
D) 0.2
E) 20
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20
A horizontal shove of at least 200-N is required to start moving a 800-N crate initially at rest on a horizontal floor. The coefficient of static friction is:

A) 0.25
B) 0.125
C) 0.50
D) 4.00
E) none of these
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21
Block A, with a mass of 10 kg, rests on a 35 °\degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass mB, of block B, attached to the dangling end, for which A begins to slide down the incline is: <strong>Block A, with a mass of 10 kg, rests on a 35 \degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass m<sub>B</sub>, of block B, attached to the dangling end, for which A begins to slide down the incline is: </strong> A) 2.5 kg B) 3.5 kg C) 5.9 kg D) 9.0 kg E) 10.5 kg

A) 2.5 kg
B) 3.5 kg
C) 5.9 kg
D) 9.0 kg
E) 10.5 kg
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22
A 50-N force is applied to a crate on a horizontal rough floor, causing it to move horizontally. If the coefficient of kinetic friction is 0.50, in what direction should the force be applied to obtain the greatest acceleration?

A) Horizontal
B) 60 °\degree above the horizontal
C) 30 °\degree above the horizontal
D) 27 °\degree above the horizontal
E) 30 °\degree below the horizontal
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23
Block A, with mass mA, is initially at rest on a horizontal floor. Block B, with mass mB, is initially at rest on the horizontal top surface of A. The coefficient of static friction between the two blocks is μ\mu s. Block A is pulled with a horizonatal force. It begins to slide out from under B if the force is greater than:

A) mAg
B) mBg
C) μ\mu smAg
D) μ\mu smBg
E) μ\mu s ( mA + mB)g
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24
A professor holds an eraser against a vertical chalkboard by pushing horizontally on it. He pushes with a force that is much greater than is required to hold the eraser. The force of friction exerted by the board on the eraser increases if he:

A) pushes with slightly greater force
B) pushes with slightly less force
C) stops pushing
D) pushes so his force is slightly downward but has the same magnitude
E) pushes so his force is slightly upward but has the same magnitude
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25
A 5.0-kg crate is resting on a horizontal plank. The coefficient of static friction is 0.50 and the coefficient of kinetic friction is 0.40. After one end of the plank is raised so the plank makes an angle of 30 °\degree with the horizontal, the force of friction is:

A) 0
B) 18 N
C) 21 N
D) 22 N
E) 44 N
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26
A box rests on a rough board 10 meters long. When one end of the board is slowly raised to a height of 6 meters above the other end, the box begins to slide. The coefficient of static friction is:

A) 0.8
B) 0.25
C) 0.4
D) 0.6
E) 0.75
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27
A horizontal force of 5.0 N pushes a 0.50-kg block against a vertical wall. The block is initially at rest. If μ\mu s = 0.6 and μ\mu k = 0.80, the frictional force is:

A) 0
B) 4.9 N
C) 3.0 N
D) 5.0 N
E) 4.0 N
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28
The system shown remains at rest. The force of friction on the upper block is: <strong>The system shown remains at rest. The force of friction on the upper block is: </strong> A) 4 N B) 8 N C) 12 N D) 16 N E) 20 N

A) 4 N
B) 8 N
C) 12 N
D) 16 N
E) 20 N
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29
A horizontal force of 5.0 N pushes a 0.50-kg block against a vertical wall. The block is initially at rest. If μ\mu s = 0.60 and μ\mu k = 0.80, the acceleration of the block in m/s2 is:

A) 0
B) 1.8
C) 6.0
D) 8.0
E) 9.8
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30
A block is first placed on its long side and then on its short side on the same inclined plane. The block slides down the plane on its short side but remains at rest on its long side. A possible explanation is: <strong>A block is first placed on its long side and then on its short side on the same inclined plane. The block slides down the plane on its short side but remains at rest on its long side. A possible explanation is: </strong> A) the short side is smoother B) the frictional force is less because the contact area is less C) the center of gravity is higher in the second case D) the normal force is less in the second case E) the force of gravity is more nearly down the plane in the second case

A) the short side is smoother
B) the frictional force is less because the contact area is less
C) the center of gravity is higher in the second case
D) the normal force is less in the second case
E) the force of gravity is more nearly down the plane in the second case
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31
Block A, with a mass of 50 kg, rests on a horizontal table top. The coefficient of static friction is 0.40. A horizontal string is attached to A and passes over a massless, frictionless pulley as shown. The smallest mass mB of block B, attached to the dangling end, that will start A moving when it is attached to the other end of the string is: <strong>Block A, with a mass of 50 kg, rests on a horizontal table top. The coefficient of static friction is 0.40. A horizontal string is attached to A and passes over a massless, frictionless pulley as shown. The smallest mass m<sub>B</sub> of block B, attached to the dangling end, that will start A moving when it is attached to the other end of the string is: </strong> A) 20 kg B) 30 kg C) 40 kg D) 50 kg E) 70 kg

A) 20 kg
B) 30 kg
C) 40 kg
D) 50 kg
E) 70 kg
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32
A 5.0-kg crate is on an incline that makes an angle of 30 °\degree with the horizontal. If the coefficient of static friction is 0.50, the minimum force that can be applied parallel to the plane to hold the crate at rest is:

A) 0
B) 3.3 N
C) 30 N
D) 46 N
E) 55 N
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33
A 5.0-kg crate is resting on a horizontal plank. The coefficient of static friction is 0.50 and the coefficient of kinetic friction is 0.40. After one end of the plank is raised so the plank makes an angle of 25 °\degree with the horizontal, the force of friction is:

A) 0
B) 18 N
C) 21 N
D) 22 N
E) 44 N
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34
Block A, with a mass of 10 kg, rests on a 35 °\degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass mB, attached to the dangling end, for which A remains at rest is: <strong>Block A, with a mass of 10 kg, rests on a 35 \degree incline. The coefficient of static friction is 0.40. An attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. The largest mass m<sub>B</sub>, attached to the dangling end, for which A remains at rest is: </strong> A) 2.5 kg B) 3.5 kg C) 5.9 kg D) 9.0 kg E) 10.5 kg

A) 2.5 kg
B) 3.5 kg
C) 5.9 kg
D) 9.0 kg
E) 10.5 kg
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35
A block is placed on a rough wooden plane. It is found that when the plane is tilted 30 °\degree to the horizontal, the block will slide down at constant speed. The coefficient of kinetic friction of the block with the plane is:

A) 0.500
B) 0.577
C) 1.73
D) 0.866
E) 4.90
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36
A horizontal force of 12 N pushes a 0.5-kg bookk against a vertical wall. The book is initially at rest. If the coefficients of friction are μ\mu s = 0.6 and μ\mu k = 0.8 which of the following is true?

A) The frictional force is 4.9 N
B) The frictional force is 7.2 N
C) The normal force is 4.9 N
D) The block will start moving and accelerate
E) If started moving downward, the block will decelerate
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37
A 5.0-kg crate is on an incline that makes an angle 30 °\degree with the horizontal. If the coefficent of static friction is 0.5, the maximum force that can be applied parallel to the plane without moving the crate is:

A) 0
B) 3.3 N
C) 30 N
D) 46 N
E) 55 N
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38
A heavy wooden block is dragged by a force <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force. along a rough steel plate, as shown below for two possible situations. The magnitude of <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force. is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: <strong>A heavy wooden block is dragged by a force along a rough steel plate, as shown below for two possible situations. The magnitude of is the same for the two situations. The magnitude of the frictional force in (ii), as compared with that in (i) is: </strong> A) the same B) greater C) less D) less for some angles and greater for others E) can be less or greater, depending on the magnitude of the applied force.

A) the same
B) greater
C) less
D) less for some angles and greater for others
E) can be less or greater, depending on the magnitude of the applied force.
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39
A crate is sliding down an incline that is 35 °\degree above the horizontal. If the coefficient of kinetic friction is 0.40, the acceleration of the crate is:

A) 0
B) 2.4 m/s2
C) 5.8 m/s2
D) 8.8 m/s2
E) 10.3 m/s2
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40
A horizontal force of 12 N pushes a 0.50-kg book against a vertical wall. The book is initially at rest. If μ\mu s = 0.6 and μ\mu k = 0.80, the acceleration of the book in m/s2 is:

A) 0
B) 9.4 m/s2
C) 9.8 m/s2
D) 14.4 m/s2
E) 19.2 m/s2
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41
A ball is thrown downward from the edge of a cliff with an initial speed that is three times the terminal speed. Initially its acceleration is

A) upward and greater than g
B) upward and less than g
C) downward and greater than g
D) downward and less than g
E) downward and equal to g
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42
An 800-N passenger in a car, presses against the car door with a 200 N force when the car makes a left turn at 13 m/s. The (faulty) door will pop open under a force of 800 N. Of the following, the least speed for which the man is thrown out of the car is:

A) 14 m/s
B) 19 m/s
C) 20 m/s
D) 26 m/s
E) 54 m/s
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43
A 0.2-kg stone is attached to a string and swung in a circle of radius 0.6 m on a horizontal and frictionless surface. If the stone makes 150 revolutions per minute, the tension force of the string on the stone is:

A) 0.03 N
B) 0.2 N
C) 0.9 N
D) 1.96 N
E) 30 N
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44
Why do raindrops fall with constant speed during the later stages of their descent?

A) The gravitational force is the same for all drops
B) Air resistance just balances the force of gravity
C) The drops all fall from the same height
D) The force of gravity is negligible for objects as small as raindrops
E) Gravity cannot increase the speed of a falling object to more than 32 ft/s
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45
If a satellite moves above the Earth's atmosphere in a circular orbit with constant speed, then:

A) its acceleration and velocity are in the same direction
B) the net force on it is zero
C) its velocity is constant
D) it will fall back to Earth when its fuel is used up
E) its acceleration is toward the Earth
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46
The magnitude of the force required to cause an 0.04-kg object to move at 0.6 m/s in a circle of radius 1.0 m is:

A) 2.4 * 10-2 N
B) 1.4 * 10-2 N
C) 1.4 π\pi *10-2 N
D) 2.4 π\pi 2 *10-2 N
E) 3.13 N
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47
An object moves around a circle. If the radius is doubled keeping the speed the same then the magnitude of the contripetal force must be:

A) twice as great
B) half as great
C) four times as great
D) one-fourth as great
E) the same
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48
An object moving in a circle at constant speed:

A) must have only one force acting on it
B) is not accelerating
C) is held to its path by centrifugal force
D) has an acceleration of constant magnitude
E) has an acceleration that is tangent to the circle
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49
Block A, with a mass of 10 kg, rests on a 30 °\degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 8.0 kg, is attached to the dangling end of the string. The acceleration of B is: <strong>Block A, with a mass of 10 kg, rests on a 30 \degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 8.0 kg, is attached to the dangling end of the string. The acceleration of B is: </strong> A) 0.69 m/s<sup>2</sup>, up the plane B) 0.69 m/s<sup>2</sup>, down the plane C) 2.6 m/s<sup>2</sup>, up the plane D) 2.6 m/s<sup>2</sup>, down the plane E) 0

A) 0.69 m/s2, up the plane
B) 0.69 m/s2, down the plane
C) 2.6 m/s2, up the plane
D) 2.6 m/s2, down the plane
E) 0
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50
A 1000-kg airplane moves in straight flight at constant speed. The force of air friction is 1800 N. The net force on the plane is:

A) zero
B) 11800 N
C) 1800 N
D) 9800 N
E) none of these
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51
Which of the following five graphs is correct for a particle moving in a circle of radius r at a constant speed of 10 m/s? <strong>Which of the following five graphs is correct for a particle moving in a circle of radius r at a constant speed of 10 m/s? </strong> A) I B) II C) III D) IV E) V

A) I
B) II
C) III
D) IV
E) V
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52
An object of mass m and another object of mass 2m are each forced to move along a circle of radius 1.0 m at a constant speed of 1.0 m/s. The magnitudes of their accelerations are:

A) equal
B) <strong>An object of mass m and another object of mass 2m are each forced to move along a circle of radius 1.0 m at a constant speed of 1.0 m/s. The magnitudes of their accelerations are:</strong> A) equal B) C) in the ratio of 2 : 1 D) in the ratio of 4 : 1 E) zero
C) in the ratio of 2 : 1
D) in the ratio of 4 : 1
E) zero
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53
Uniform circular motion is the direct consequence of:

A) Newton's third law
B) a force that is always tangent to the pathe
C) an acceleration tangent to the path
D) a force of constant magnitude that is always directed away from the same fixed point
E) a force of constant magnitude that is always directed toward the same fixed point
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54
An object moves in a circle. If the mass is tripled, the speed halved and the radius unchanged then the magnitude of the centripetal force must be multiplied by a factor of:

A) 3/2
B) 3/4
C) 9/4
D) 6
E) 12
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55
A ball is thrown upward into the air with a speed that is greater than terminal speed. It lands at the place where it was thrown. During its flight the force of air resistance is the greatest:

A) just after it is thrown
B) halfway up
C) at the top of its trajectory
D) halfway down
E) just before it lands
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56
An automobile moves on a level horizontal road in a circle of radius 30 m. The coefficient of friction between tires and road is 0.50. The maximum speed with which this car can round this curve is:

A) 3.0 m/s
B) 4.9 m/s
C) 9.8 m/s
D) 12 m/s
E) 13 m/s
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57
Block A, with a mass of 10 kg, rests on a 30 °\degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 3.0 kg, is attached to the dangling end of the string. The acceleration of B is: <strong>Block A, with a mass of 10 kg, rests on a 30 \degree incline. The coefficient of kinetic friction is 0.20. The attached string is parallel to the incline and passes over a massless, frictionless pulley at the top. Block B, with a mass of 3.0 kg, is attached to the dangling end of the string. The acceleration of B is: </strong> A) 0.20 m/s<sup>2</sup>, up B) 0.20 m/s<sup>2</sup>, down C) 2.8 m/s<sup>2</sup>, up D) 2.8 m/s<sup>2</sup>, down E) 0

A) 0.20 m/s2, up
B) 0.20 m/s2, down
C) 2.8 m/s2, up
D) 2.8 m/s2, down
E) 0
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58
A ball is thrown upward into the air with a speed that is greater than terminal speed. On the way up it slows down and, after its speed equals the terminal speed but before it gets to the top of its trajectory:

A) its speed is constant
B) it continues to slow down
C) it speeds up
D) its motion becomes jerky
E) none of the above
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59
If a certain car, going with speed v1, rounds a level curve with a radius R1, it is just on the verge of skidding. If its speed is now doubled, the radius of the tightest curve on the same road that it can round without skidding is:

A) 2R1
B) 4R1
C) R1/2
D) R1/4
E) R1
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60
The driver of a 1000-kg car tries to turn through a circle of radius 100 m on an unbanked curve at a speed of 10 m/s. The actual frictional force between the tires and a slippery road has a magnitude of 900 N. The car:

A) slides into the inside of the curve
B) makes the turn
C) slows down due to the frictinal force
D) makes the turn only if it goes faster
E) slides off to the outside of the curve
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61
A giant wheel, having a diameter of 40 m, is fitted with a cage and platform on which a man of mass m stands. The wheel is rotated in a vertical plane at such a speed that the force exerted by the man on the platform is equal to his weight when the cage is at X, as shown. The net force on the man at point X is: <strong>A giant wheel, having a diameter of 40 m, is fitted with a cage and platform on which a man of mass m stands. The wheel is rotated in a vertical plane at such a speed that the force exerted by the man on the platform is equal to his weight when the cage is at X, as shown. The net force on the man at point X is: </strong> A) zero B) mg, down C) mg, up D) 2 mg, down E) 2 mg, up

A) zero
B) mg, down
C) mg, up
D) 2 mg, down
E) 2 mg, up
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62
A coin is placed on a horizontal phonograph turntable. Let N be the normal force exerted by the turntable on the coin, f be the frictional force exerted by the turntable on the coin, and fs, max be the maximum force of the static friction. The speed of the turntable is increased in small steps. If the coin does not slide, then

A) N increases, f increases, and fs, max stays the same
B) N increases, f increases, and fs, max increases
C) f increases and both N and fs, max stay the same
D) N, f, and fs, max all stay the same
E) N, f, and fs, max all increase
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63
A giant wheel, 40 m in diameter, is fitted with a cage and platform on which a man can stand. The wheel rotates at such a speed that when the cage is at X (as shown) the force exerted by the man on the platform is equal to his weight. The speed of the man is: <strong>A giant wheel, 40 m in diameter, is fitted with a cage and platform on which a man can stand. The wheel rotates at such a speed that when the cage is at X (as shown) the force exerted by the man on the platform is equal to his weight. The speed of the man is: </strong> A) 14 m/s B) 20 m/s C) 28 m/s D) 80 m/s E) 120 m/s

A) 14 m/s
B) 20 m/s
C) 28 m/s
D) 80 m/s
E) 120 m/s
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64
One end of a 1.0-m long string is fixed, the other end is attached to a 2.0-kg stone. The stone swings in a vertical circle, passing the bottom point at 4.0 m/s. The tension force of the string (in newtons) at this point is about:

A) 0
B) 12
C) 20
D) 32
E) 52
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65
Circular freeway entrance and exit ramps are commonly banked to handle a car moving at 13 m/s. To design a similar ramp for 26 m/s one should:

A) increase radius by factor of 2
B) decrease radius by factor of 2
C) increase radius by factor of 4
D) decrease radius by factor of 4
E) <strong>Circular freeway entrance and exit ramps are commonly banked to handle a car moving at 13 m/s. To design a similar ramp for 26 m/s one should:</strong> A) increase radius by factor of 2 B) decrease radius by factor of 2 C) increase radius by factor of 4 D) decrease radius by factor of 4 E)
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66
The iron ball shown is being swung in a vertical circle at the end of a 0.7-m string. How slowly, in ft/s, can the ball go through its top position without having the string go slack? <strong>The iron ball shown is being swung in a vertical circle at the end of a 0.7-m string. How slowly, in ft/s, can the ball go through its top position without having the string go slack? </strong> A) 1.3 m/s B) 2.6 m/s C) 3.9 m/s D) 6.9 m/s E) 9.8 m/s

A) 1.3 m/s
B) 2.6 m/s
C) 3.9 m/s
D) 6.9 m/s
E) 9.8 m/s
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67
At what angle should the roadway on a curve with a 50m radius be banked to allow cars to negotiate the curve at 12 m/s even if the roadway is icy (and the frictional force is zero)?

A) 0
B) 16°
C) 18°
D) 35°
E) 73°
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68
A person riding a Ferris wheel is strapped into her seat by a seat belt. The wheel is spun so that the centripetal acceleration is g. Select the correct combination of forces that act on her when she is at the top. In the table, Fg = force of gravity, down; Fb = seat belt force, down; and Fs = seat force, up.

A) Fg = 0, Fb = mg, Fs = 0
B) Fg = mg, Fb = 0, Fs = 0
C) Fg = 0, Fb = 0, Fs = mg
D) Fg = mg, Fb = mg, Fs = 0
E) Fg = mg, Fb = 0, Fs = mg
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69
A car rounds a 75-m radius curve at a constant speed of 18 m/s. A ball is suspended by a string from the ceiling the car and moves with the car. The angle between the string and the verticle is:

A) 0
B) 1.4°
C) 24°
D) 90°
E) cannot be found without knnowing the mass of the ball
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70
A block is suspended by a rope from the ceiling of a car.. When the car rounds a 45-m radius horizontal curve at 22 m/s (about 50 mph), what angle does the rod make with the vertical?

A) 0
B) 25 °\degree
C) 42 °\degree
D) 65 °\degree
E) 90 °\degree
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71
One end of a 1.0-m string is fixed, the other end is attached to a 2.0-kg stone. The stone swings in a vertical circle, passing the top point at 4.0 m/s. The tension force of the string (in newtons) at this point is about:

A) 0
B) 12
C) 20
D) 32
E) 52
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