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Deck 5: Newtons Laws of Motion

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Question
If M = 6.0 kg, what is the tension in string 1? <strong>If M = 6.0 kg, what is the tension in string 1? </strong> A)39 N B)34 N C)29 N D)44 N E)51 N <div style=padding-top: 35px>

A)39 N
B)34 N
C)29 N
D)44 N
E)51 N
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Question
Two forces are the only forces acting on a 3.0-kg object which moves with an acceleration of 3.0 m/s2 in the positive y direction. If one of the forces acts in the positive x direction and has a magnitude of 8.0 N, what is the magnitude of the other force?

A)12 N
B)14 N
C)16 N
D)18 N
E)22 N
Question
In the figure, if the tension in string 1 is 34 N and the tension in string 2 is 24 N, what is the mass of the object shown? ​ <strong>In the figure, if the tension in string 1 is 34 N and the tension in string 2 is 24 N, what is the mass of the object shown? ​ ​</strong> A)7.3 kg B)5.5 kg C)1.8 kg D)3.7 kg E)4.5 kg <div style=padding-top: 35px>

A)7.3 kg
B)5.5 kg
C)1.8 kg
D)3.7 kg
E)4.5 kg
Question
If F = 4.0 N and m = 2.0 kg, what is the magnitude a of the acceleration for the block shown below? The surface is frictionless. <strong>If F = 4.0 N and m = 2.0 kg, what is the magnitude a of the acceleration for the block shown below? The surface is frictionless. </strong> A)5.3 m/s<sup>2</sup> B)4.4 m/s<sup>2</sup> C)3.5 m/s<sup>2</sup> D)6.2 m/s<sup>2</sup> E)8.4 m/s<sup>2</sup> <div style=padding-top: 35px>

A)5.3 m/s2
B)4.4 m/s2
C)3.5 m/s2
D)6.2 m/s2
E)8.4 m/s2
Question
If α = 40° and the tension in string 2 is 30 N, determine M. <strong>If α = 40° and the tension in string 2 is 30 N, determine M. </strong> A)3.4 kg B)3.6 kg C)2.6 kg D)4.9 kg E)7.5 kg <div style=padding-top: 35px>

A)3.4 kg
B)3.6 kg
C)2.6 kg
D)4.9 kg
E)7.5 kg
Question
A person weighing 0.70 kN rides in an elevator that has an upward acceleration of 1.5 m/s2. What is the magnitude of the force of the elevator floor on the person?

A)0.11 kN
B)0.81 kN
C)0.70 kN
D)0.59 kN
E)0.64 kN
Question
A block is pushed up a frictionless 30° incline by an applied force as shown. If F = 25 N and M = 3.0 kg, what is the magnitude of the resulting acceleration of the block? <strong>A block is pushed up a frictionless 30° incline by an applied force as shown. If F = 25 N and M = 3.0 kg, what is the magnitude of the resulting acceleration of the block? </strong> A)2.3 m/s<sup>2</sup> B)4.6 m/s<sup>2</sup> C)3.5 m/s<sup>2</sup> D)2.9 m/s<sup>2</sup> E)5.1 m/s<sup>2</sup> <div style=padding-top: 35px>

A)2.3 m/s2
B)4.6 m/s2
C)3.5 m/s2
D)2.9 m/s2
E)5.1 m/s2
Question
If α = 40°, β = 60°, and M = 4.0 kg, determine the tension in string 1. <strong>If α = 40°, β = 60°, and M = 4.0 kg, determine the tension in string 1. </strong> A)15 N B)22 N C)17 N D)20 N E)36 N <div style=padding-top: 35px>

A)15 N
B)22 N
C)17 N
D)20 N
E)36 N
Question
An object of unknown weight is suspended as shown. The tension in rope 1 is 25 lb, and the tension in rope 2 is 31 lb. What is the weight of the suspended object? <strong>An object of unknown weight is suspended as shown. The tension in rope 1 is 25 lb, and the tension in rope 2 is 31 lb. What is the weight of the suspended object? </strong> A)36 lb B)33 lb C)41 lb D)39 lb E)56 lb <div style=padding-top: 35px>

A)36 lb
B)33 lb
C)41 lb
D)39 lb
E)56 lb
Question
The only two forces acting on a body have magnitudes of 20 N and 35 N and directions that differ by 80°. The resulting acceleration has a magnitude of 20 m/s2. What is the mass of the body?

A)2.4 kg
B)2.2 kg
C)2.7 kg
D)3.1 kg
E)1.5 kg
Question
A 5.0-kg mass is suspended by a string from the ceiling of an elevator that is moving upward with a speed which is decreasing at a constant rate of 2.0 m/s in each second. What is the tension in the string supporting the mass?

A)49 N
B)39 N
C)59 N
D)10 N
E)42 N
Question
If the only forces acting on a 2.0-kg mass are <strong>If the only forces acting on a 2.0-kg mass are , and , what is the magnitude of the acceleration of the particle?</strong> A)1.5 m/s<sup>2</sup> B)6.5 m/s<sup>2</sup> C)4.7 m/s<sup>2</sup> D)9.4 m/s<sup>2</sup> E)7.2 m/s<sup>2</sup> <div style=padding-top: 35px> , and <strong>If the only forces acting on a 2.0-kg mass are , and , what is the magnitude of the acceleration of the particle?</strong> A)1.5 m/s<sup>2</sup> B)6.5 m/s<sup>2</sup> C)4.7 m/s<sup>2</sup> D)9.4 m/s<sup>2</sup> E)7.2 m/s<sup>2</sup> <div style=padding-top: 35px> , what is the magnitude of the acceleration of the particle?

A)1.5 m/s2
B)6.5 m/s2
C)4.7 m/s2
D)9.4 m/s2
E)7.2 m/s2
Question
The tension in a string from which a 4.0-kg object is suspended in an elevator is equal to 44 N. What is the acceleration of the elevator?

A)11 m/s2 upward
B)1.2 m/s2 upward
C)1.2 m/s2 downward
D)10 m/s2 upward
E)2.4 m/s2 downward
Question
If M = 1.1 kg, what is the tension in string 1? <strong>If M = 1.1 kg, what is the tension in string 1? </strong> A)54 N B)47 N C)40 N D)62 N E)57 N <div style=padding-top: 35px>

A)54 N
B)47 N
C)40 N
D)62 N
E)57 N
Question
A 5.0-kg mass is attached to the ceiling of an elevator by a rope whose mass is negligible. What force does the mass exert on the rope when the elevator has an acceleration of 4.0 m/s2 upward?

A)69 N downward
B)29 N downward
C)49 N downward
D)20 N downward
E)19 N downward
Question
The horizontal surface on which the block slides is frictionless. If F = 20 N and M = 5.0 kg, what is the magnitude of the resulting acceleration of the block? <strong>The horizontal surface on which the block slides is frictionless. If F = 20 N and M = 5.0 kg, what is the magnitude of the resulting acceleration of the block? </strong> A)5.3 m/s<sup>2</sup> B)6.2 m/s<sup>2</sup> C)7.5 m/s<sup>2</sup> D)4.7 m/s<sup>2</sup> E)3.2 m/s<sup>2</sup> <div style=padding-top: 35px>

A)5.3 m/s2
B)6.2 m/s2
C)7.5 m/s2
D)4.7 m/s2
E)3.2 m/s2
Question
At an instant when a 4.0-kg object has an acceleration equal to <strong>At an instant when a 4.0-kg object has an acceleration equal to m/s<sup>2</sup>, one of the two forces acting on the object is known to be N. Determine the magnitude of the other force acting on the object.</strong> A)2.0 N B)13 N C)18 N D)1.7 N E)20 N <div style=padding-top: 35px> m/s2, one of the two forces acting on the object is known to be <strong>At an instant when a 4.0-kg object has an acceleration equal to m/s<sup>2</sup>, one of the two forces acting on the object is known to be N. Determine the magnitude of the other force acting on the object.</strong> A)2.0 N B)13 N C)18 N D)1.7 N E)20 N <div style=padding-top: 35px> N. Determine the magnitude of the other force acting on the object.

A)2.0 N
B)13 N
C)18 N
D)1.7 N
E)20 N
Question
If M = 2.0 kg, what is the tension in string 1? <strong>If M = 2.0 kg, what is the tension in string 1? </strong> A)1.2 N B)11 N C)34 N D)3.5 N E)40 N <div style=padding-top: 35px>

A)1.2 N
B)11 N
C)34 N
D)3.5 N
E)40 N
Question
A 5.0-kg object is suspended by a string from the ceiling of an elevator that is accelerating downward at a rate of 2.6 m/s2. What is the tension in the string?

A)49 N
B)36 N
C)62 N
D)13 N
E)52 N
Question
A 3.0-kg block slides on a frictionless 20° inclined plane. A force of 16 N acting parallel to the incline and up the incline is applied to the block. What is the acceleration of the block?

A)2.0 m/s2 down the incline
B)5.3 m/s2 up the incline
C)2.0 m/s2 up the incline
D)3.9 m/s2 down the incline
E)3.9 m/s2 up the incline
Question
A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is

A) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
B) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
C) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
D) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
E) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
A bumper car is moving at constant velocity when another bumper car starts to push on it with a constant force at an angle of 60 degrees with respect to the first car's initial velocity. The second bumper car continues pushing in exactly that direction for some time. What is most likely to happen is that

A)the first car will stop moving.
B)the first car will move in the direction of the force.
C)the first car's velocity will increase in magnitude but not change direction.
D)the first car's velocity will gradually change direction more and more toward that of the force while increasing in magnitude.
E)the first car's velocity will gradually change direction more and more toward that of the force while decreasing in magnitude.
Question
When the vector sum of three co-planar forces, <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> , <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> , and <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> , is parallel to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> , we can conclude that <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> and <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px>

A)must sum to zero.
B)must be equal and opposite.
C)must have equal and opposite components perpendicular to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> .
D)must have equal and opposite components parallel to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> .
E)must have equal and opposite components parallel and perpendicular to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . <div style=padding-top: 35px> .
Question
Only two forces act on a 3.0-kg mass. One of the forces is 9.0 N east, and the other is 8.0 N in the direction of 62° north of west. What is the magnitude of the acceleration of the mass?

A)2.0 m/s2
B)2.4 m/s2
C)3.3 m/s2
D)2.9 m/s2
E)5.7 m/s2
Question
A 2.0-kg block slides on a frictionless 25° inclined plane. A force of 4.6 N acting parallel to the incline and up the incline is applied to the block. What is the acceleration of the block?

A)1.8 m/s2 up the incline
B)2.3 m/s2 up the incline
C)6.6 m/s2 down the incline
D)1.8 m/s2 down the incline
E)2.3 m/s2 down the incline
Question
Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> of the first person to the acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> of the second person. Which statement is correct?

A)They are equal and opposite in direction.
B)They are equal and have the same direction.
C)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> , but they have the same direction.
D)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> , but they have opposite directions.
E)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> is less than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. <div style=padding-top: 35px> , but they have the same direction.
Question
A 1.5-kg object has a velocity of <strong>A 1.5-kg object has a velocity of m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of m/s. What is the magnitude of the resultant force acting on the object during this time interval?</strong> A)3.8 N B)3.2 N C)2.8 N D)4.3 N E)4.6 N <div style=padding-top: 35px> m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of <strong>A 1.5-kg object has a velocity of m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of m/s. What is the magnitude of the resultant force acting on the object during this time interval?</strong> A)3.8 N B)3.2 N C)2.8 N D)4.3 N E)4.6 N <div style=padding-top: 35px> m/s. What is the magnitude of the resultant force acting on the object during this time interval?

A)3.8 N
B)3.2 N
C)2.8 N
D)4.3 N
E)4.6 N
Question
You have a machine which can accelerate pucks on frictionless ice. Starting from rest, the puck travels a distance x in time t when force F is applied. If force 3F is applied, the distance the puck travels in time t is

A)x.
B)(3/2)x.
C)3x.
D)(9/2)x.
E)9x.
Question
A 2.0-kg block slides on a frictionless 15° inclined plane. A force acting parallel to the incline is applied to the block. The acceleration of the block is 1.5 m/s2 down the incline. What is the applied force?

A)8.1 N down the incline
B)3.0 N down the incline
C)2.1 N up the incline
D)3.0 N up the incline
E)8.1 N up the incline
Question
A book is placed on a chair. Then a videocassette is placed on the book. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the chair.
D)upwards on the chair and downwards on the book.
E)only on the objects that you have defined to be part of the system.
Question
A heavy weight is supported by two cables that exert tensions of magnitude <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> and <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> . Which statement is correct? ​ <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px>

A) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> = <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> .
B) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> = <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> .
C) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> > <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> .
D) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> < <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. <div style=padding-top: 35px> .
E)We need the mass of the box in order to determine the correct answer.
Question
A 1.5-kg mass has an acceleration of <strong>A 1.5-kg mass has an acceleration of . Only two forces act on the mass. If one of the forces is , what is the magnitude of the other force?</strong> A)4.1 N B)6.1 N C)5.1 N D)7.1 N E)2.4 N <div style=padding-top: 35px> . Only two forces act on the mass. If one of the forces is <strong>A 1.5-kg mass has an acceleration of . Only two forces act on the mass. If one of the forces is , what is the magnitude of the other force?</strong> A)4.1 N B)6.1 N C)5.1 N D)7.1 N E)2.4 N <div style=padding-top: 35px> , what is the magnitude of the other force?

A)4.1 N
B)6.1 N
C)5.1 N
D)7.1 N
E)2.4 N
Question
A 2.0-kg object has a velocity of <strong>A 2.0-kg object has a velocity of m/s at t = 0. A constant resultant force of then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?</strong> A)9.2 m/s B)6.3 m/s C)8.2 m/s D)7.2 m/s E)7.7 m/s <div style=padding-top: 35px> m/s at t = 0. A constant resultant force of <strong>A 2.0-kg object has a velocity of m/s at t = 0. A constant resultant force of then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?</strong> A)9.2 m/s B)6.3 m/s C)8.2 m/s D)7.2 m/s E)7.7 m/s <div style=padding-top: 35px> then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?

A)9.2 m/s
B)6.3 m/s
C)8.2 m/s
D)7.2 m/s
E)7.7 m/s
Question
A juggler throws two balls up to the same height so that they pass each other halfway up when A is rising and B is descending. Ignore air resistance and buoyant forces. Which statement is true of the two balls at that point?

A)There is an residual upward force from the hand on each ball.
B)There is a greater residual force from the hand on A than there is on B.
C)Only gravity acts on B but there is an additional residual force from the hand on A.
D)There is an additional downwards force besides gravity on each ball.
E)The only force acting on each ball is the gravitational force.
Question
The horizontal surface on which the objects slide is frictionless. If M = 2.0 kg, the tension in string 1 is 12 N. Determine F. <strong>The horizontal surface on which the objects slide is frictionless. If M = 2.0 kg, the tension in string 1 is 12 N. Determine F. </strong> A)25 N B)20 N C)30 N D)35 N E)40 N <div style=padding-top: 35px>

A)25 N
B)20 N
C)30 N
D)35 N
E)40 N
Question
The vector sum of three co-planar forces

A)must be zero.
B)must be perpendicular to one of the three.
C)must be parallel to one of the three.
D)must be perpendicular to the plane.
E)may have any direction in the plane.
Question
The apparent weight of a fish in an elevator is greatest when the elevator

A)moves downward at constant velocity.
B)moves upward at constant velocity.
C)accelerates downward.
D)accelerates upward.
E)is not moving.
Question
A constant force is applied to a body that is already moving. The force is directed at an angle of 60 degrees to the direction of the body's velocity. What is most likely to happen is that

A)the body will stop moving.
B)the body will move in the direction of the force.
C)the body's velocity will increase in magnitude but not change direction.
D)the body will gradually change direction more and more toward that of the force while speeding up.
E)the body will first stop moving and then move in the direction of the force.
Question
Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> the floor exerts on the first person to the force <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> the rope exerts on the second person. Which statement is correct?

A)They are equal and opposite in direction.
B)They are equal and have the same direction.
C) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> , but they have the same direction.
D) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> , but they have opposite directions.
E) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> is less than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. <div style=padding-top: 35px> , but they have the same direction.
Question
The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> ; the normal force of the ramp on the second box is <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> . Which statement is correct? <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px>

A) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg.
B) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg sin 20°.
C) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg cos 20°.
D) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = −mg cos 20°.
E) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = − <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. <div style=padding-top: 35px> = −mg.
Question
If M = 2.2 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. <strong>If M = 2.2 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. </strong> A)6.4 N B)5.9 N C)5.4 N D)6.9 N E)8.3 N <div style=padding-top: 35px>

A)6.4 N
B)5.9 N
C)5.4 N
D)6.9 N
E)8.3 N
Question
An 8.0-kg object rests on the floor of an elevator which is accelerating downward at a rate of 1.3 m/s2. What is the magnitude of the force the object exerts on the floor of the elevator?

A)59 N
B)10 N
C)89 N
D)68 N
E)78 N
Question
A 5.0-kg mass sits on the floor of an elevator that has a downward acceleration of 1.0 m/s2. On top of the 5.0-kg mass is an object of unknown mass. The force of the elevator on the 5.0-kg mass is 80 N up. Determine the unknown mass.

A)3.3 kg
B)2.4 kg
C)1.6 kg
D)4.1 kg
E)5.0 kg
Question
A 70-kg stunt artist rides in a rocket sled which slides along a flat inclined surface. At an instant when the sled's acceleration has a horizontal component of 6.0 m/s2 and a downward component of 2.8 m/s2, what is the magnitude of the force on the rider by the sled?

A)0.83 kN
B)0.98 kN
C)0.65 kN
D)0.68 kN
E)0.72 kN
Question
If the tension, <strong>If the tension, , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s<sup>2</sup>, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ ​</strong> A)3.1 kg B)2.5 kg C)2.8 kg D)2.2 kg E)3.7 kg <div style=padding-top: 35px> , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s2, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ <strong>If the tension, , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s<sup>2</sup>, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ ​</strong> A)3.1 kg B)2.5 kg C)2.8 kg D)2.2 kg E)3.7 kg <div style=padding-top: 35px>

A)3.1 kg
B)2.5 kg
C)2.8 kg
D)2.2 kg
E)3.7 kg
Question
An astronaut who weighs 800 N on the surface of the Earth lifts off from planet Zuton in a space ship. The free-fall acceleration on Zuton is 3.0 m/s2 (down). At the moment of liftoff the acceleration of the space ship is 0.50 m/s2 (up). What is the magnitude of the force of the space ship on the astronaut?

A)41 N
B)0.29 kN
C)0.24 kN
D)0.20 kN
E)0.37 kN
Question
The system shown is released from rest and moves 50 cm in 1.0 s. What is the value of M? All surfaces are frictionless. <strong>The system shown is released from rest and moves 50 cm in 1.0 s. What is the value of M? All surfaces are frictionless. </strong> A)0.42 kg B)0.34 kg C)0.50 kg D)0.59 kg E)0.68 kg <div style=padding-top: 35px>

A)0.42 kg
B)0.34 kg
C)0.50 kg
D)0.59 kg
E)0.68 kg
Question
If F = 5.0 N, what is the magnitude of the force exerted by block 2 on block 1? <strong>If F = 5.0 N, what is the magnitude of the force exerted by block 2 on block 1? </strong> A)17 N B)19 N C)21 N D)23 N E)5.0 N <div style=padding-top: 35px>

A)17 N
B)19 N
C)21 N
D)23 N
E)5.0 N
Question
If P = 6.0 N, what is the magnitude of the force exerted on block 1 by block 2? <strong>If P = 6.0 N, what is the magnitude of the force exerted on block 1 by block 2? </strong> A)6.4 N B)5.6 N C)4.8 N D)7.2 N E)8.4 N <div style=padding-top: 35px>

A)6.4 N
B)5.6 N
C)4.8 N
D)7.2 N
E)8.4 N
Question
A 6.0-kg object is suspended by a vertical string from the ceiling of an elevator which is accelerating upward at a rate of 1.8 m/s2. Determine the tension in the string.

A)11 N
B)70 N
C)48 N
D)59 N
E)62 N
Question
If F = 8.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ <strong>If F = 8.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ ​</strong> A)4.1 N B)3.5 N C)3.8 N D)3.1 N E)4.8 N <div style=padding-top: 35px>

A)4.1 N
B)3.5 N
C)3.8 N
D)3.1 N
E)4.8 N
Question
If F = 40 N and M = 1.5 kg, what is the tension in the string connecting M and 2M? Assume that all surfaces are frictionless. <strong>If F = 40 N and M = 1.5 kg, what is the tension in the string connecting M and 2M? Assume that all surfaces are frictionless. </strong> A)13 N B)23 N C)36 N D)15 N E)28 N <div style=padding-top: 35px>

A)13 N
B)23 N
C)36 N
D)15 N
E)28 N
Question
If F = 40 N and M = 2.0 kg, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless. <strong>If F = 40 N and M = 2.0 kg, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless. </strong> A)1.2 m/s<sup>2</sup> B)2.0 m/s<sup>2</sup> C)1.5 m/s<sup>2</sup> D)2.5 m/s<sup>2</sup> E)5.6 m/s<sup>2</sup> <div style=padding-top: 35px>

A)1.2 m/s2
B)2.0 m/s2
C)1.5 m/s2
D)2.5 m/s2
E)5.6 m/s2
Question
The horizontal surface on which the objects slide is frictionless. If F = 12 N, what is the tension in string 1? <strong>The horizontal surface on which the objects slide is frictionless. If F = 12 N, what is the tension in string 1? </strong> A)35 N B)30 N C)40 N D)45 N E)25 N <div style=padding-top: 35px>

A)35 N
B)30 N
C)40 N
D)45 N
E)25 N
Question
The surface of the inclined plane shown is frictionless. If F = 30 N, what is the magnitude of the force exerted on the 3.0-kg block by the 2.0-kg block? <strong>The surface of the inclined plane shown is frictionless. If F = 30 N, what is the magnitude of the force exerted on the 3.0-kg block by the 2.0-kg block? </strong> A)18 N B)27 N C)24 N D)21 N E)15 N <div style=padding-top: 35px>

A)18 N
B)27 N
C)24 N
D)21 N
E)15 N
Question
A 4.0-kg block slides down a 35° incline at a constant speed when a 16-N force is applied acting up and parallel to the incline. What is the coefficient of kinetic friction between the block and the surface of the incline?

A)0.20
B)0.23
C)0.26
D)0.33
E)0.41
Question
A block is pushed across a horizontal surface by the force shown. If the coefficient of kinetic friction between the block and the surface is 0.30, F = 20 N, θ = 30°, and M = 3.0 kg, what is the magnitude of the acceleration of the block? <strong>A block is pushed across a horizontal surface by the force shown. If the coefficient of kinetic friction between the block and the surface is 0.30, F = 20 N, θ = 30°, and M = 3.0 kg, what is the magnitude of the acceleration of the block? </strong> A)2.8 m/s<sup>2</sup> B)2.3 m/s<sup>2</sup> C)1.8 m/s<sup>2</sup> D)3.3 m/s<sup>2</sup> E)5.4 m/s<sup>2</sup> <div style=padding-top: 35px>

A)2.8 m/s2
B)2.3 m/s2
C)1.8 m/s2
D)3.3 m/s2
E)5.4 m/s2
Question
The horizontal surface on which the objects slide is frictionless. If F = 6.0 N and M = 1.0 kg, what is the magnitude of the force exerted on the large block by the small block? <strong>The horizontal surface on which the objects slide is frictionless. If F = 6.0 N and M = 1.0 kg, what is the magnitude of the force exerted on the large block by the small block? </strong> A)7.7 N B)9.8 N C)9.1 N D)8.4 N E)6.5 N <div style=padding-top: 35px>

A)7.7 N
B)9.8 N
C)9.1 N
D)8.4 N
E)6.5 N
Question
In the figure, if F = 2.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ <strong>In the figure, if F = 2.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ ​</strong> A)2.6 N B)1.1 N C)2.1 N D)1.6 N E)3.7 N <div style=padding-top: 35px>

A)2.6 N
B)1.1 N
C)2.1 N
D)1.6 N
E)3.7 N
Question
The horizontal surface on which the objects slide is frictionless. If M = 1.0 kg and the magnitude of the force of the small block on the large block is 5.2 N, determine F. <strong>The horizontal surface on which the objects slide is frictionless. If M = 1.0 kg and the magnitude of the force of the small block on the large block is 5.2 N, determine F. </strong> A)6.0 N B)9.0 N C)7.8 N D)4.8 N E)4.1 N <div style=padding-top: 35px>

A)6.0 N
B)9.0 N
C)7.8 N
D)4.8 N
E)4.1 N
Question
Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the small block on the large block? <strong>Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the small block on the large block? </strong> A)0.48 N to the right B)0.72 N to the right C)0.72 N to the left D)0.48 N to the left E)0.65 N to the left <div style=padding-top: 35px>

A)0.48 N to the right
B)0.72 N to the right
C)0.72 N to the left
D)0.48 N to the left
E)0.65 N to the left
Question
Two bodies, A and B, collide as shown in Figures I and II below. <strong>Two bodies, A and B, collide as shown in Figures I and II below. Which statement is true?</strong> A)They exert equal and opposite forces on each other in I but not in II. B)They exert equal and opposite force on each other in II but not in I. C)They exert equal and opposite force on each other in both I and II. D)The forces are equal and opposite to each other in I, but only the components of the forces parallel to the velocities are equal in II. E)The forces are equal and opposite in I, but only the components of the forces perpendicular to the velocities are equal in II <div style=padding-top: 35px> Which statement is true?

A)They exert equal and opposite forces on each other in I but not in II.
B)They exert equal and opposite force on each other in II but not in I.
C)They exert equal and opposite force on each other in both I and II.
D)The forces are equal and opposite to each other in I, but only the components of the forces parallel to the velocities are equal in II.
E)The forces are equal and opposite in I, but only the components of the forces perpendicular to the velocities are equal in II
Question
In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 14 N and M = 1.0 kg, what is the magnitude of the acceleration of either block? <strong>In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 14 N and M = 1.0 kg, what is the magnitude of the acceleration of either block? </strong> A)2.0 m/s<sup>2</sup> B)1.3 m/s<sup>2</sup> C)1.5 m/s<sup>2</sup> D)1.8 m/s<sup>2</sup> E)3.5 m/s<sup>2</sup> <div style=padding-top: 35px>

A)2.0 m/s2
B)1.3 m/s2
C)1.5 m/s2
D)1.8 m/s2
E)3.5 m/s2
Question
In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 10 N and M = 1.0 kg, what is the tension in the connecting string? <strong>In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 10 N and M = 1.0 kg, what is the tension in the connecting string? </strong> A)8.0 N B)6.0 N C)6.7 N D)8.7 N E)3.0 N <div style=padding-top: 35px>

A)8.0 N
B)6.0 N
C)6.7 N
D)8.7 N
E)3.0 N
Question
Two blocks in contact with each other are pushed to the right across a rough horizontal surface by the two forces shown. If the coefficient of kinetic friction between each of the blocks and the surface is 0.30, determine the magnitude of the force exerted on the 2.0-kg block by the 3.0-kg block. <strong>Two blocks in contact with each other are pushed to the right across a rough horizontal surface by the two forces shown. If the coefficient of kinetic friction between each of the blocks and the surface is 0.30, determine the magnitude of the force exerted on the 2.0-kg block by the 3.0-kg block. </strong> A)15 N B)25 N C)11 N D)22 N E)33 N <div style=padding-top: 35px>

A)15 N
B)25 N
C)11 N
D)22 N
E)33 N
Question
A 4.0-kg block is pushed up a 36° incline by a force of magnitude P applied parallel to the incline. When P is 31 N, it is observed that the block moves up the incline with a constant speed. What value of P would be required to lower the block down the incline at a constant speed?

A)27 N
B)15 N
C)13 N
D)17 N
E)19 N
Question
A chair is placed on a rug. Then a book is placed on the chair. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the rug.
D)upwards on the rug and downwards on the chair.
E)only on the objects you have defined to be part of the system.
Question
Two identical springs with spring constant 50 N/m support a 5.0-N weight as in the picture below. What is the tension in spring A? ​ <strong>Two identical springs with spring constant 50 N/m support a 5.0-N weight as in the picture below. What is the tension in spring A? ​ ​</strong> A)1.45 N B)2.50 N C)2.89 N D)3.75 N E)5.00 N <div style=padding-top: 35px>

A)1.45 N
B)2.50 N
C)2.89 N
D)3.75 N
E)5.00 N
Question
In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.29. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. <strong>In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.29. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. </strong> A)5.4 m/s<sup>2</sup> B)5.2 m/s<sup>2</sup> C)4.9 m/s<sup>2</sup> D)5.6 m/s<sup>2</sup> E)7.9 m/s<sup>2</sup> <div style=padding-top: 35px>

A)5.4 m/s2
B)5.2 m/s2
C)4.9 m/s2
D)5.6 m/s2
E)7.9 m/s2
Question
Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the large block on the small block? <strong>Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the large block on the small block? </strong> A)0.40 N to the left B)0.80 N to the right C)0.40 N to the right D)0.80 N to the left E)1.20 N to the left <div style=padding-top: 35px>

A)0.40 N to the left
B)0.80 N to the right
C)0.40 N to the right
D)0.80 N to the left
E)1.20 N to the left
Question
A book is placed on a chair. Then a videocassette is placed on the book. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the chair.
D)upwards on the chair and downwards on the book.
E)only on the objects that you have defined to be part of the system.
Question
A 3.0-kg block moves up a 40° incline with constant speed under the action of a 26-N force acting up and parallel to the incline. What magnitude force must act up and parallel to the incline for the block to move down the incline at constant velocity?

A)14 N
B)12 N
C)16 N
D)18 N
E)25 N
Question
A 60-kg person rides down an icy hill of 20° slope while standing on a 3.0-kg flat-bottomed bathroom scale. Assume there is no frictional force between the bottom of the scale and the hill. The static friction force the scale exerts on the person is

A)0 N.
B)201 N.
C)211 N.
D)553 N.
E)580 N.
Question
In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.40. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. <strong>In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.40. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. </strong> A)3.4 m/s<sup>2</sup> B)3.7 m/s<sup>2</sup> C)4.2 m/s<sup>2</sup> D)3.9 m/s<sup>2</sup> E)5.4 m/s<sup>2</sup> <div style=padding-top: 35px>

A)3.4 m/s2
B)3.7 m/s2
C)4.2 m/s2
D)3.9 m/s2
E)5.4 m/s2
Question
The three blocks shown are released from rest and are observed to move with accelerations that have a magnitude of 1.5 m/s2. What is the magnitude of the friction force on the block that slides horizontally? Disregard any pulley mass or friction in the pulley and let M = 2.0 kg. <strong>The three blocks shown are released from rest and are observed to move with accelerations that have a magnitude of 1.5 m/s<sup>2</sup>. What is the magnitude of the friction force on the block that slides horizontally? Disregard any pulley mass or friction in the pulley and let M = 2.0 kg. </strong> A)6.0 N B)5.1 N C)5.5 N D)4.6 N E)3.7 N <div style=padding-top: 35px>

A)6.0 N
B)5.1 N
C)5.5 N
D)4.6 N
E)3.7 N
Question
The coefficient of kinetic friction between the surface and the larger block is 0.25, and the coefficient of kinetic friction between the surface and the smaller block is 0.40. If F = 22 N and M = 1.0 kg in the figure, what is the magnitude of the acceleration of either block? ​ <strong>The coefficient of kinetic friction between the surface and the larger block is 0.25, and the coefficient of kinetic friction between the surface and the smaller block is 0.40. If F = 22 N and M = 1.0 kg in the figure, what is the magnitude of the acceleration of either block? ​ ​</strong> A)1.8 m/s<sup>2</sup> B)2.6 m/s<sup>2</sup> C)1.4 m/s<sup>2</sup> D)2.2 m/s<sup>2</sup> E)3.7 m/s<sup>2</sup> <div style=padding-top: 35px>

A)1.8 m/s2
B)2.6 m/s2
C)1.4 m/s2
D)2.2 m/s2
E)3.7 m/s2
Question
A 2.0-kg block slides on a rough horizontal surface. A force (magnitude P = 4.0 N) acting parallel to the surface is applied to the block. The magnitude of the block's acceleration is 1.2 m/s2. If P is increased to 5.0 N, determine the magnitude of the block's acceleration.

A)2.1 m/s2
B)2.3 m/s2
C)1.9 m/s2
D)1.7 m/s2
E)3.2 m/s2
Question
Two blocks connected by a string are pulled across a horizontal surface by a force applied to one of the blocks, as shown. The coefficient of kinetic friction between the blocks and the surface is 0.25. If each block has an acceleration of 2.0 m/s2 to the right, what is the magnitude F of the applied force? ​ <strong>Two blocks connected by a string are pulled across a horizontal surface by a force applied to one of the blocks, as shown. The coefficient of kinetic friction between the blocks and the surface is 0.25. If each block has an acceleration of 2.0 m/s<sup>2</sup> to the right, what is the magnitude F of the applied force? ​ ​</strong> A)25 N B)18 N C)11 N D)14 N E)7.0 N <div style=padding-top: 35px>

A)25 N
B)18 N
C)11 N
D)14 N
E)7.0 N
Question
A 3.0-kg block slides on a rough horizontal surface. A force of 8.0 N acting parallel to the surface is applied to the block. The coefficient of kinetic friction between the block and the surface is 0.15. What is the magnitude of the block's acceleration?

A)1.9 m/s2
B)1.2 m/s2
C)2.3 m/s2
D)1.5 m/s2
E)2.9 m/s2
Question
The block shown is pulled across the horizontal surface at a constant speed by the force shown. If M = 5.0 kg, F = 14 N and θ = 35°, what is the coefficient of kinetic friction between the block and the horizontal surface? <strong>The block shown is pulled across the horizontal surface at a constant speed by the force shown. If M = 5.0 kg, F = 14 N and θ = 35°, what is the coefficient of kinetic friction between the block and the horizontal surface? </strong> A)0.44 B)0.33 C)0.38 D)0.28 E)0.17 <div style=padding-top: 35px>

A)0.44
B)0.33
C)0.38
D)0.28
E)0.17
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Deck 5: Newtons Laws of Motion
1
If M = 6.0 kg, what is the tension in string 1? <strong>If M = 6.0 kg, what is the tension in string 1? </strong> A)39 N B)34 N C)29 N D)44 N E)51 N

A)39 N
B)34 N
C)29 N
D)44 N
E)51 N
51 N
2
Two forces are the only forces acting on a 3.0-kg object which moves with an acceleration of 3.0 m/s2 in the positive y direction. If one of the forces acts in the positive x direction and has a magnitude of 8.0 N, what is the magnitude of the other force?

A)12 N
B)14 N
C)16 N
D)18 N
E)22 N
12 N
3
In the figure, if the tension in string 1 is 34 N and the tension in string 2 is 24 N, what is the mass of the object shown? ​ <strong>In the figure, if the tension in string 1 is 34 N and the tension in string 2 is 24 N, what is the mass of the object shown? ​ ​</strong> A)7.3 kg B)5.5 kg C)1.8 kg D)3.7 kg E)4.5 kg

A)7.3 kg
B)5.5 kg
C)1.8 kg
D)3.7 kg
E)4.5 kg
3.7 kg
4
If F = 4.0 N and m = 2.0 kg, what is the magnitude a of the acceleration for the block shown below? The surface is frictionless. <strong>If F = 4.0 N and m = 2.0 kg, what is the magnitude a of the acceleration for the block shown below? The surface is frictionless. </strong> A)5.3 m/s<sup>2</sup> B)4.4 m/s<sup>2</sup> C)3.5 m/s<sup>2</sup> D)6.2 m/s<sup>2</sup> E)8.4 m/s<sup>2</sup>

A)5.3 m/s2
B)4.4 m/s2
C)3.5 m/s2
D)6.2 m/s2
E)8.4 m/s2
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5
If α = 40° and the tension in string 2 is 30 N, determine M. <strong>If α = 40° and the tension in string 2 is 30 N, determine M. </strong> A)3.4 kg B)3.6 kg C)2.6 kg D)4.9 kg E)7.5 kg

A)3.4 kg
B)3.6 kg
C)2.6 kg
D)4.9 kg
E)7.5 kg
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6
A person weighing 0.70 kN rides in an elevator that has an upward acceleration of 1.5 m/s2. What is the magnitude of the force of the elevator floor on the person?

A)0.11 kN
B)0.81 kN
C)0.70 kN
D)0.59 kN
E)0.64 kN
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7
A block is pushed up a frictionless 30° incline by an applied force as shown. If F = 25 N and M = 3.0 kg, what is the magnitude of the resulting acceleration of the block? <strong>A block is pushed up a frictionless 30° incline by an applied force as shown. If F = 25 N and M = 3.0 kg, what is the magnitude of the resulting acceleration of the block? </strong> A)2.3 m/s<sup>2</sup> B)4.6 m/s<sup>2</sup> C)3.5 m/s<sup>2</sup> D)2.9 m/s<sup>2</sup> E)5.1 m/s<sup>2</sup>

A)2.3 m/s2
B)4.6 m/s2
C)3.5 m/s2
D)2.9 m/s2
E)5.1 m/s2
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8
If α = 40°, β = 60°, and M = 4.0 kg, determine the tension in string 1. <strong>If α = 40°, β = 60°, and M = 4.0 kg, determine the tension in string 1. </strong> A)15 N B)22 N C)17 N D)20 N E)36 N

A)15 N
B)22 N
C)17 N
D)20 N
E)36 N
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9
An object of unknown weight is suspended as shown. The tension in rope 1 is 25 lb, and the tension in rope 2 is 31 lb. What is the weight of the suspended object? <strong>An object of unknown weight is suspended as shown. The tension in rope 1 is 25 lb, and the tension in rope 2 is 31 lb. What is the weight of the suspended object? </strong> A)36 lb B)33 lb C)41 lb D)39 lb E)56 lb

A)36 lb
B)33 lb
C)41 lb
D)39 lb
E)56 lb
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10
The only two forces acting on a body have magnitudes of 20 N and 35 N and directions that differ by 80°. The resulting acceleration has a magnitude of 20 m/s2. What is the mass of the body?

A)2.4 kg
B)2.2 kg
C)2.7 kg
D)3.1 kg
E)1.5 kg
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11
A 5.0-kg mass is suspended by a string from the ceiling of an elevator that is moving upward with a speed which is decreasing at a constant rate of 2.0 m/s in each second. What is the tension in the string supporting the mass?

A)49 N
B)39 N
C)59 N
D)10 N
E)42 N
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12
If the only forces acting on a 2.0-kg mass are <strong>If the only forces acting on a 2.0-kg mass are , and , what is the magnitude of the acceleration of the particle?</strong> A)1.5 m/s<sup>2</sup> B)6.5 m/s<sup>2</sup> C)4.7 m/s<sup>2</sup> D)9.4 m/s<sup>2</sup> E)7.2 m/s<sup>2</sup> , and <strong>If the only forces acting on a 2.0-kg mass are , and , what is the magnitude of the acceleration of the particle?</strong> A)1.5 m/s<sup>2</sup> B)6.5 m/s<sup>2</sup> C)4.7 m/s<sup>2</sup> D)9.4 m/s<sup>2</sup> E)7.2 m/s<sup>2</sup> , what is the magnitude of the acceleration of the particle?

A)1.5 m/s2
B)6.5 m/s2
C)4.7 m/s2
D)9.4 m/s2
E)7.2 m/s2
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13
The tension in a string from which a 4.0-kg object is suspended in an elevator is equal to 44 N. What is the acceleration of the elevator?

A)11 m/s2 upward
B)1.2 m/s2 upward
C)1.2 m/s2 downward
D)10 m/s2 upward
E)2.4 m/s2 downward
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14
If M = 1.1 kg, what is the tension in string 1? <strong>If M = 1.1 kg, what is the tension in string 1? </strong> A)54 N B)47 N C)40 N D)62 N E)57 N

A)54 N
B)47 N
C)40 N
D)62 N
E)57 N
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15
A 5.0-kg mass is attached to the ceiling of an elevator by a rope whose mass is negligible. What force does the mass exert on the rope when the elevator has an acceleration of 4.0 m/s2 upward?

A)69 N downward
B)29 N downward
C)49 N downward
D)20 N downward
E)19 N downward
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16
The horizontal surface on which the block slides is frictionless. If F = 20 N and M = 5.0 kg, what is the magnitude of the resulting acceleration of the block? <strong>The horizontal surface on which the block slides is frictionless. If F = 20 N and M = 5.0 kg, what is the magnitude of the resulting acceleration of the block? </strong> A)5.3 m/s<sup>2</sup> B)6.2 m/s<sup>2</sup> C)7.5 m/s<sup>2</sup> D)4.7 m/s<sup>2</sup> E)3.2 m/s<sup>2</sup>

A)5.3 m/s2
B)6.2 m/s2
C)7.5 m/s2
D)4.7 m/s2
E)3.2 m/s2
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17
At an instant when a 4.0-kg object has an acceleration equal to <strong>At an instant when a 4.0-kg object has an acceleration equal to m/s<sup>2</sup>, one of the two forces acting on the object is known to be N. Determine the magnitude of the other force acting on the object.</strong> A)2.0 N B)13 N C)18 N D)1.7 N E)20 N m/s2, one of the two forces acting on the object is known to be <strong>At an instant when a 4.0-kg object has an acceleration equal to m/s<sup>2</sup>, one of the two forces acting on the object is known to be N. Determine the magnitude of the other force acting on the object.</strong> A)2.0 N B)13 N C)18 N D)1.7 N E)20 N N. Determine the magnitude of the other force acting on the object.

A)2.0 N
B)13 N
C)18 N
D)1.7 N
E)20 N
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18
If M = 2.0 kg, what is the tension in string 1? <strong>If M = 2.0 kg, what is the tension in string 1? </strong> A)1.2 N B)11 N C)34 N D)3.5 N E)40 N

A)1.2 N
B)11 N
C)34 N
D)3.5 N
E)40 N
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19
A 5.0-kg object is suspended by a string from the ceiling of an elevator that is accelerating downward at a rate of 2.6 m/s2. What is the tension in the string?

A)49 N
B)36 N
C)62 N
D)13 N
E)52 N
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20
A 3.0-kg block slides on a frictionless 20° inclined plane. A force of 16 N acting parallel to the incline and up the incline is applied to the block. What is the acceleration of the block?

A)2.0 m/s2 down the incline
B)5.3 m/s2 up the incline
C)2.0 m/s2 up the incline
D)3.9 m/s2 down the incline
E)3.9 m/s2 up the incline
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21
A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is

A) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . .
B) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . .
C) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . .
D) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . .
E) <strong>A constant force F is applied to a body of mass m that initially is headed east at velocity v0 until its velocity becomes −v0. The total time of travel is 2t. The total distance the body travels in that time is</strong> A) . B) . C) . D) . E) . .
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22
A bumper car is moving at constant velocity when another bumper car starts to push on it with a constant force at an angle of 60 degrees with respect to the first car's initial velocity. The second bumper car continues pushing in exactly that direction for some time. What is most likely to happen is that

A)the first car will stop moving.
B)the first car will move in the direction of the force.
C)the first car's velocity will increase in magnitude but not change direction.
D)the first car's velocity will gradually change direction more and more toward that of the force while increasing in magnitude.
E)the first car's velocity will gradually change direction more and more toward that of the force while decreasing in magnitude.
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23
When the vector sum of three co-planar forces, <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . , <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . , and <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . , is parallel to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . , we can conclude that <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . and <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to .

A)must sum to zero.
B)must be equal and opposite.
C)must have equal and opposite components perpendicular to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . .
D)must have equal and opposite components parallel to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . .
E)must have equal and opposite components parallel and perpendicular to <strong>When the vector sum of three co-planar forces, , , and , is parallel to , we can conclude that and </strong> A)must sum to zero. B)must be equal and opposite. C)must have equal and opposite components perpendicular to . D)must have equal and opposite components parallel to . E)must have equal and opposite components parallel and perpendicular to . .
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24
Only two forces act on a 3.0-kg mass. One of the forces is 9.0 N east, and the other is 8.0 N in the direction of 62° north of west. What is the magnitude of the acceleration of the mass?

A)2.0 m/s2
B)2.4 m/s2
C)3.3 m/s2
D)2.9 m/s2
E)5.7 m/s2
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25
A 2.0-kg block slides on a frictionless 25° inclined plane. A force of 4.6 N acting parallel to the incline and up the incline is applied to the block. What is the acceleration of the block?

A)1.8 m/s2 up the incline
B)2.3 m/s2 up the incline
C)6.6 m/s2 down the incline
D)1.8 m/s2 down the incline
E)2.3 m/s2 down the incline
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26
Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. of the first person to the acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. of the second person. Which statement is correct?

A)They are equal and opposite in direction.
B)They are equal and have the same direction.
C)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. , but they have the same direction.
D)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. , but they have opposite directions.
E)The acceleration <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. is less than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the acceleration of the first person to the acceleration of the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C)The acceleration is greater than , but they have the same direction. D)The acceleration is greater than , but they have opposite directions. E)The acceleration is less than , but they have the same direction. , but they have the same direction.
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27
A 1.5-kg object has a velocity of <strong>A 1.5-kg object has a velocity of m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of m/s. What is the magnitude of the resultant force acting on the object during this time interval?</strong> A)3.8 N B)3.2 N C)2.8 N D)4.3 N E)4.6 N m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of <strong>A 1.5-kg object has a velocity of m/s at t = 0. It is accelerated at a constant rate for five seconds after which it has a velocity of m/s. What is the magnitude of the resultant force acting on the object during this time interval?</strong> A)3.8 N B)3.2 N C)2.8 N D)4.3 N E)4.6 N m/s. What is the magnitude of the resultant force acting on the object during this time interval?

A)3.8 N
B)3.2 N
C)2.8 N
D)4.3 N
E)4.6 N
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28
You have a machine which can accelerate pucks on frictionless ice. Starting from rest, the puck travels a distance x in time t when force F is applied. If force 3F is applied, the distance the puck travels in time t is

A)x.
B)(3/2)x.
C)3x.
D)(9/2)x.
E)9x.
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29
A 2.0-kg block slides on a frictionless 15° inclined plane. A force acting parallel to the incline is applied to the block. The acceleration of the block is 1.5 m/s2 down the incline. What is the applied force?

A)8.1 N down the incline
B)3.0 N down the incline
C)2.1 N up the incline
D)3.0 N up the incline
E)8.1 N up the incline
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30
A book is placed on a chair. Then a videocassette is placed on the book. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the chair.
D)upwards on the chair and downwards on the book.
E)only on the objects that you have defined to be part of the system.
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31
A heavy weight is supported by two cables that exert tensions of magnitude <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. and <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. . Which statement is correct? ​ <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer.

A) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. = <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. .
B) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. = <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. .
C) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. > <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. .
D) <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. < <strong>A heavy weight is supported by two cables that exert tensions of magnitude and . Which statement is correct? ​ ​</strong> A) = . B) = . C) > . D) < . E)We need the mass of the box in order to determine the correct answer. .
E)We need the mass of the box in order to determine the correct answer.
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32
A 1.5-kg mass has an acceleration of <strong>A 1.5-kg mass has an acceleration of . Only two forces act on the mass. If one of the forces is , what is the magnitude of the other force?</strong> A)4.1 N B)6.1 N C)5.1 N D)7.1 N E)2.4 N . Only two forces act on the mass. If one of the forces is <strong>A 1.5-kg mass has an acceleration of . Only two forces act on the mass. If one of the forces is , what is the magnitude of the other force?</strong> A)4.1 N B)6.1 N C)5.1 N D)7.1 N E)2.4 N , what is the magnitude of the other force?

A)4.1 N
B)6.1 N
C)5.1 N
D)7.1 N
E)2.4 N
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33
A 2.0-kg object has a velocity of <strong>A 2.0-kg object has a velocity of m/s at t = 0. A constant resultant force of then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?</strong> A)9.2 m/s B)6.3 m/s C)8.2 m/s D)7.2 m/s E)7.7 m/s m/s at t = 0. A constant resultant force of <strong>A 2.0-kg object has a velocity of m/s at t = 0. A constant resultant force of then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?</strong> A)9.2 m/s B)6.3 m/s C)8.2 m/s D)7.2 m/s E)7.7 m/s then acts on the object for 3.0 s. What is the magnitude of the object's velocity at the end of the 3.0-s interval?

A)9.2 m/s
B)6.3 m/s
C)8.2 m/s
D)7.2 m/s
E)7.7 m/s
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34
A juggler throws two balls up to the same height so that they pass each other halfway up when A is rising and B is descending. Ignore air resistance and buoyant forces. Which statement is true of the two balls at that point?

A)There is an residual upward force from the hand on each ball.
B)There is a greater residual force from the hand on A than there is on B.
C)Only gravity acts on B but there is an additional residual force from the hand on A.
D)There is an additional downwards force besides gravity on each ball.
E)The only force acting on each ball is the gravitational force.
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35
The horizontal surface on which the objects slide is frictionless. If M = 2.0 kg, the tension in string 1 is 12 N. Determine F. <strong>The horizontal surface on which the objects slide is frictionless. If M = 2.0 kg, the tension in string 1 is 12 N. Determine F. </strong> A)25 N B)20 N C)30 N D)35 N E)40 N

A)25 N
B)20 N
C)30 N
D)35 N
E)40 N
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36
The vector sum of three co-planar forces

A)must be zero.
B)must be perpendicular to one of the three.
C)must be parallel to one of the three.
D)must be perpendicular to the plane.
E)may have any direction in the plane.
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37
The apparent weight of a fish in an elevator is greatest when the elevator

A)moves downward at constant velocity.
B)moves upward at constant velocity.
C)accelerates downward.
D)accelerates upward.
E)is not moving.
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38
A constant force is applied to a body that is already moving. The force is directed at an angle of 60 degrees to the direction of the body's velocity. What is most likely to happen is that

A)the body will stop moving.
B)the body will move in the direction of the force.
C)the body's velocity will increase in magnitude but not change direction.
D)the body will gradually change direction more and more toward that of the force while speeding up.
E)the body will first stop moving and then move in the direction of the force.
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39
Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. the floor exerts on the first person to the force <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. the rope exerts on the second person. Which statement is correct?

A)They are equal and opposite in direction.
B)They are equal and have the same direction.
C) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. , but they have the same direction.
D) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. is greater than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. , but they have opposite directions.
E) <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. is less than <strong>Two people, each of 70 kg mass, are riding in an elevator. One is standing on the floor. The other is hanging on a rope suspended from the ceiling. Compare the force the floor exerts on the first person to the force the rope exerts on the second person. Which statement is correct?</strong> A)They are equal and opposite in direction. B)They are equal and have the same direction. C) is greater than , but they have the same direction. D) is greater than , but they have opposite directions. E) is less than , but they have the same direction. , but they have the same direction.
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40
The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. ; the normal force of the ramp on the second box is <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. . Which statement is correct? <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg.

A) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg.
B) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg sin 20°.
C) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg cos 20°.
D) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = mg; <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = −mg cos 20°.
E) <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = − <strong>The first of two identical boxes of mass m is sitting on level ground. The second box is sitting on a ramp that makes a 20° angle with the ground. The normal force of the level ground on the first box is ; the normal force of the ramp on the second box is . Which statement is correct? </strong> A) = = mg. B) = mg; = mg sin 20°. C) = mg; = mg cos 20°. D) = mg; = −mg cos 20°. E) = − = −mg. = −mg.
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41
If M = 2.2 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. <strong>If M = 2.2 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. </strong> A)6.4 N B)5.9 N C)5.4 N D)6.9 N E)8.3 N

A)6.4 N
B)5.9 N
C)5.4 N
D)6.9 N
E)8.3 N
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42
An 8.0-kg object rests on the floor of an elevator which is accelerating downward at a rate of 1.3 m/s2. What is the magnitude of the force the object exerts on the floor of the elevator?

A)59 N
B)10 N
C)89 N
D)68 N
E)78 N
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43
A 5.0-kg mass sits on the floor of an elevator that has a downward acceleration of 1.0 m/s2. On top of the 5.0-kg mass is an object of unknown mass. The force of the elevator on the 5.0-kg mass is 80 N up. Determine the unknown mass.

A)3.3 kg
B)2.4 kg
C)1.6 kg
D)4.1 kg
E)5.0 kg
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44
A 70-kg stunt artist rides in a rocket sled which slides along a flat inclined surface. At an instant when the sled's acceleration has a horizontal component of 6.0 m/s2 and a downward component of 2.8 m/s2, what is the magnitude of the force on the rider by the sled?

A)0.83 kN
B)0.98 kN
C)0.65 kN
D)0.68 kN
E)0.72 kN
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45
If the tension, <strong>If the tension, , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s<sup>2</sup>, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ ​</strong> A)3.1 kg B)2.5 kg C)2.8 kg D)2.2 kg E)3.7 kg , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s2, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ <strong>If the tension, , is 15 N and the magnitude of the acceleration, a, is 3.0 m/s<sup>2</sup>, what is the mass, m, of the suspended object? Assume that all surfaces and the pulley are frictionless. ​ ​</strong> A)3.1 kg B)2.5 kg C)2.8 kg D)2.2 kg E)3.7 kg

A)3.1 kg
B)2.5 kg
C)2.8 kg
D)2.2 kg
E)3.7 kg
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46
An astronaut who weighs 800 N on the surface of the Earth lifts off from planet Zuton in a space ship. The free-fall acceleration on Zuton is 3.0 m/s2 (down). At the moment of liftoff the acceleration of the space ship is 0.50 m/s2 (up). What is the magnitude of the force of the space ship on the astronaut?

A)41 N
B)0.29 kN
C)0.24 kN
D)0.20 kN
E)0.37 kN
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47
The system shown is released from rest and moves 50 cm in 1.0 s. What is the value of M? All surfaces are frictionless. <strong>The system shown is released from rest and moves 50 cm in 1.0 s. What is the value of M? All surfaces are frictionless. </strong> A)0.42 kg B)0.34 kg C)0.50 kg D)0.59 kg E)0.68 kg

A)0.42 kg
B)0.34 kg
C)0.50 kg
D)0.59 kg
E)0.68 kg
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48
If F = 5.0 N, what is the magnitude of the force exerted by block 2 on block 1? <strong>If F = 5.0 N, what is the magnitude of the force exerted by block 2 on block 1? </strong> A)17 N B)19 N C)21 N D)23 N E)5.0 N

A)17 N
B)19 N
C)21 N
D)23 N
E)5.0 N
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49
If P = 6.0 N, what is the magnitude of the force exerted on block 1 by block 2? <strong>If P = 6.0 N, what is the magnitude of the force exerted on block 1 by block 2? </strong> A)6.4 N B)5.6 N C)4.8 N D)7.2 N E)8.4 N

A)6.4 N
B)5.6 N
C)4.8 N
D)7.2 N
E)8.4 N
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50
A 6.0-kg object is suspended by a vertical string from the ceiling of an elevator which is accelerating upward at a rate of 1.8 m/s2. Determine the tension in the string.

A)11 N
B)70 N
C)48 N
D)59 N
E)62 N
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51
If F = 8.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ <strong>If F = 8.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ ​</strong> A)4.1 N B)3.5 N C)3.8 N D)3.1 N E)4.8 N

A)4.1 N
B)3.5 N
C)3.8 N
D)3.1 N
E)4.8 N
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52
If F = 40 N and M = 1.5 kg, what is the tension in the string connecting M and 2M? Assume that all surfaces are frictionless. <strong>If F = 40 N and M = 1.5 kg, what is the tension in the string connecting M and 2M? Assume that all surfaces are frictionless. </strong> A)13 N B)23 N C)36 N D)15 N E)28 N

A)13 N
B)23 N
C)36 N
D)15 N
E)28 N
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53
If F = 40 N and M = 2.0 kg, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless. <strong>If F = 40 N and M = 2.0 kg, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless. </strong> A)1.2 m/s<sup>2</sup> B)2.0 m/s<sup>2</sup> C)1.5 m/s<sup>2</sup> D)2.5 m/s<sup>2</sup> E)5.6 m/s<sup>2</sup>

A)1.2 m/s2
B)2.0 m/s2
C)1.5 m/s2
D)2.5 m/s2
E)5.6 m/s2
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54
The horizontal surface on which the objects slide is frictionless. If F = 12 N, what is the tension in string 1? <strong>The horizontal surface on which the objects slide is frictionless. If F = 12 N, what is the tension in string 1? </strong> A)35 N B)30 N C)40 N D)45 N E)25 N

A)35 N
B)30 N
C)40 N
D)45 N
E)25 N
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55
The surface of the inclined plane shown is frictionless. If F = 30 N, what is the magnitude of the force exerted on the 3.0-kg block by the 2.0-kg block? <strong>The surface of the inclined plane shown is frictionless. If F = 30 N, what is the magnitude of the force exerted on the 3.0-kg block by the 2.0-kg block? </strong> A)18 N B)27 N C)24 N D)21 N E)15 N

A)18 N
B)27 N
C)24 N
D)21 N
E)15 N
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56
A 4.0-kg block slides down a 35° incline at a constant speed when a 16-N force is applied acting up and parallel to the incline. What is the coefficient of kinetic friction between the block and the surface of the incline?

A)0.20
B)0.23
C)0.26
D)0.33
E)0.41
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57
A block is pushed across a horizontal surface by the force shown. If the coefficient of kinetic friction between the block and the surface is 0.30, F = 20 N, θ = 30°, and M = 3.0 kg, what is the magnitude of the acceleration of the block? <strong>A block is pushed across a horizontal surface by the force shown. If the coefficient of kinetic friction between the block and the surface is 0.30, F = 20 N, θ = 30°, and M = 3.0 kg, what is the magnitude of the acceleration of the block? </strong> A)2.8 m/s<sup>2</sup> B)2.3 m/s<sup>2</sup> C)1.8 m/s<sup>2</sup> D)3.3 m/s<sup>2</sup> E)5.4 m/s<sup>2</sup>

A)2.8 m/s2
B)2.3 m/s2
C)1.8 m/s2
D)3.3 m/s2
E)5.4 m/s2
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58
The horizontal surface on which the objects slide is frictionless. If F = 6.0 N and M = 1.0 kg, what is the magnitude of the force exerted on the large block by the small block? <strong>The horizontal surface on which the objects slide is frictionless. If F = 6.0 N and M = 1.0 kg, what is the magnitude of the force exerted on the large block by the small block? </strong> A)7.7 N B)9.8 N C)9.1 N D)8.4 N E)6.5 N

A)7.7 N
B)9.8 N
C)9.1 N
D)8.4 N
E)6.5 N
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59
In the figure, if F = 2.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ <strong>In the figure, if F = 2.0 N and M = 1.0 kg, what is the tension in the connecting string? The pulley and all surfaces are frictionless. ​ ​</strong> A)2.6 N B)1.1 N C)2.1 N D)1.6 N E)3.7 N

A)2.6 N
B)1.1 N
C)2.1 N
D)1.6 N
E)3.7 N
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60
The horizontal surface on which the objects slide is frictionless. If M = 1.0 kg and the magnitude of the force of the small block on the large block is 5.2 N, determine F. <strong>The horizontal surface on which the objects slide is frictionless. If M = 1.0 kg and the magnitude of the force of the small block on the large block is 5.2 N, determine F. </strong> A)6.0 N B)9.0 N C)7.8 N D)4.8 N E)4.1 N

A)6.0 N
B)9.0 N
C)7.8 N
D)4.8 N
E)4.1 N
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61
Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the small block on the large block? <strong>Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the small block on the large block? </strong> A)0.48 N to the right B)0.72 N to the right C)0.72 N to the left D)0.48 N to the left E)0.65 N to the left

A)0.48 N to the right
B)0.72 N to the right
C)0.72 N to the left
D)0.48 N to the left
E)0.65 N to the left
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62
Two bodies, A and B, collide as shown in Figures I and II below. <strong>Two bodies, A and B, collide as shown in Figures I and II below. Which statement is true?</strong> A)They exert equal and opposite forces on each other in I but not in II. B)They exert equal and opposite force on each other in II but not in I. C)They exert equal and opposite force on each other in both I and II. D)The forces are equal and opposite to each other in I, but only the components of the forces parallel to the velocities are equal in II. E)The forces are equal and opposite in I, but only the components of the forces perpendicular to the velocities are equal in II Which statement is true?

A)They exert equal and opposite forces on each other in I but not in II.
B)They exert equal and opposite force on each other in II but not in I.
C)They exert equal and opposite force on each other in both I and II.
D)The forces are equal and opposite to each other in I, but only the components of the forces parallel to the velocities are equal in II.
E)The forces are equal and opposite in I, but only the components of the forces perpendicular to the velocities are equal in II
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63
In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 14 N and M = 1.0 kg, what is the magnitude of the acceleration of either block? <strong>In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 14 N and M = 1.0 kg, what is the magnitude of the acceleration of either block? </strong> A)2.0 m/s<sup>2</sup> B)1.3 m/s<sup>2</sup> C)1.5 m/s<sup>2</sup> D)1.8 m/s<sup>2</sup> E)3.5 m/s<sup>2</sup>

A)2.0 m/s2
B)1.3 m/s2
C)1.5 m/s2
D)1.8 m/s2
E)3.5 m/s2
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64
In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 10 N and M = 1.0 kg, what is the tension in the connecting string? <strong>In the figure, the coefficient of kinetic friction between the surface and the larger block is 0.20, and the coefficient of kinetic friction between the surface and the smaller block is 0.30. If F = 10 N and M = 1.0 kg, what is the tension in the connecting string? </strong> A)8.0 N B)6.0 N C)6.7 N D)8.7 N E)3.0 N

A)8.0 N
B)6.0 N
C)6.7 N
D)8.7 N
E)3.0 N
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65
Two blocks in contact with each other are pushed to the right across a rough horizontal surface by the two forces shown. If the coefficient of kinetic friction between each of the blocks and the surface is 0.30, determine the magnitude of the force exerted on the 2.0-kg block by the 3.0-kg block. <strong>Two blocks in contact with each other are pushed to the right across a rough horizontal surface by the two forces shown. If the coefficient of kinetic friction between each of the blocks and the surface is 0.30, determine the magnitude of the force exerted on the 2.0-kg block by the 3.0-kg block. </strong> A)15 N B)25 N C)11 N D)22 N E)33 N

A)15 N
B)25 N
C)11 N
D)22 N
E)33 N
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66
A 4.0-kg block is pushed up a 36° incline by a force of magnitude P applied parallel to the incline. When P is 31 N, it is observed that the block moves up the incline with a constant speed. What value of P would be required to lower the block down the incline at a constant speed?

A)27 N
B)15 N
C)13 N
D)17 N
E)19 N
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67
A chair is placed on a rug. Then a book is placed on the chair. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the rug.
D)upwards on the rug and downwards on the chair.
E)only on the objects you have defined to be part of the system.
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68
Two identical springs with spring constant 50 N/m support a 5.0-N weight as in the picture below. What is the tension in spring A? ​ <strong>Two identical springs with spring constant 50 N/m support a 5.0-N weight as in the picture below. What is the tension in spring A? ​ ​</strong> A)1.45 N B)2.50 N C)2.89 N D)3.75 N E)5.00 N

A)1.45 N
B)2.50 N
C)2.89 N
D)3.75 N
E)5.00 N
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69
In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.29. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. <strong>In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.29. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. </strong> A)5.4 m/s<sup>2</sup> B)5.2 m/s<sup>2</sup> C)4.9 m/s<sup>2</sup> D)5.6 m/s<sup>2</sup> E)7.9 m/s<sup>2</sup>

A)5.4 m/s2
B)5.2 m/s2
C)4.9 m/s2
D)5.6 m/s2
E)7.9 m/s2
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70
Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the large block on the small block? <strong>Two blocks are accelerated across a horizontal frictionless surface as shown. Frictional forces keep the two blocks from sliding relative to each other, and the two move with the same acceleration. If F = 1.2 N and M = 1.0 kg, what is the horizontal component (frictional force) of the force of the large block on the small block? </strong> A)0.40 N to the left B)0.80 N to the right C)0.40 N to the right D)0.80 N to the left E)1.20 N to the left

A)0.40 N to the left
B)0.80 N to the right
C)0.40 N to the right
D)0.80 N to the left
E)1.20 N to the left
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71
A book is placed on a chair. Then a videocassette is placed on the book. The floor exerts a normal force

A)on all three.
B)only on the book.
C)only on the chair.
D)upwards on the chair and downwards on the book.
E)only on the objects that you have defined to be part of the system.
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72
A 3.0-kg block moves up a 40° incline with constant speed under the action of a 26-N force acting up and parallel to the incline. What magnitude force must act up and parallel to the incline for the block to move down the incline at constant velocity?

A)14 N
B)12 N
C)16 N
D)18 N
E)25 N
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73
A 60-kg person rides down an icy hill of 20° slope while standing on a 3.0-kg flat-bottomed bathroom scale. Assume there is no frictional force between the bottom of the scale and the hill. The static friction force the scale exerts on the person is

A)0 N.
B)201 N.
C)211 N.
D)553 N.
E)580 N.
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74
In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.40. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. <strong>In the figure shown, the coefficient of kinetic friction between the block and the incline is 0.40. What is the magnitude of the acceleration of the suspended block as it falls? Disregard any pulley mass or friction in the pulley. </strong> A)3.4 m/s<sup>2</sup> B)3.7 m/s<sup>2</sup> C)4.2 m/s<sup>2</sup> D)3.9 m/s<sup>2</sup> E)5.4 m/s<sup>2</sup>

A)3.4 m/s2
B)3.7 m/s2
C)4.2 m/s2
D)3.9 m/s2
E)5.4 m/s2
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75
The three blocks shown are released from rest and are observed to move with accelerations that have a magnitude of 1.5 m/s2. What is the magnitude of the friction force on the block that slides horizontally? Disregard any pulley mass or friction in the pulley and let M = 2.0 kg. <strong>The three blocks shown are released from rest and are observed to move with accelerations that have a magnitude of 1.5 m/s<sup>2</sup>. What is the magnitude of the friction force on the block that slides horizontally? Disregard any pulley mass or friction in the pulley and let M = 2.0 kg. </strong> A)6.0 N B)5.1 N C)5.5 N D)4.6 N E)3.7 N

A)6.0 N
B)5.1 N
C)5.5 N
D)4.6 N
E)3.7 N
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76
The coefficient of kinetic friction between the surface and the larger block is 0.25, and the coefficient of kinetic friction between the surface and the smaller block is 0.40. If F = 22 N and M = 1.0 kg in the figure, what is the magnitude of the acceleration of either block? ​ <strong>The coefficient of kinetic friction between the surface and the larger block is 0.25, and the coefficient of kinetic friction between the surface and the smaller block is 0.40. If F = 22 N and M = 1.0 kg in the figure, what is the magnitude of the acceleration of either block? ​ ​</strong> A)1.8 m/s<sup>2</sup> B)2.6 m/s<sup>2</sup> C)1.4 m/s<sup>2</sup> D)2.2 m/s<sup>2</sup> E)3.7 m/s<sup>2</sup>

A)1.8 m/s2
B)2.6 m/s2
C)1.4 m/s2
D)2.2 m/s2
E)3.7 m/s2
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77
A 2.0-kg block slides on a rough horizontal surface. A force (magnitude P = 4.0 N) acting parallel to the surface is applied to the block. The magnitude of the block's acceleration is 1.2 m/s2. If P is increased to 5.0 N, determine the magnitude of the block's acceleration.

A)2.1 m/s2
B)2.3 m/s2
C)1.9 m/s2
D)1.7 m/s2
E)3.2 m/s2
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78
Two blocks connected by a string are pulled across a horizontal surface by a force applied to one of the blocks, as shown. The coefficient of kinetic friction between the blocks and the surface is 0.25. If each block has an acceleration of 2.0 m/s2 to the right, what is the magnitude F of the applied force? ​ <strong>Two blocks connected by a string are pulled across a horizontal surface by a force applied to one of the blocks, as shown. The coefficient of kinetic friction between the blocks and the surface is 0.25. If each block has an acceleration of 2.0 m/s<sup>2</sup> to the right, what is the magnitude F of the applied force? ​ ​</strong> A)25 N B)18 N C)11 N D)14 N E)7.0 N

A)25 N
B)18 N
C)11 N
D)14 N
E)7.0 N
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79
A 3.0-kg block slides on a rough horizontal surface. A force of 8.0 N acting parallel to the surface is applied to the block. The coefficient of kinetic friction between the block and the surface is 0.15. What is the magnitude of the block's acceleration?

A)1.9 m/s2
B)1.2 m/s2
C)2.3 m/s2
D)1.5 m/s2
E)2.9 m/s2
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80
The block shown is pulled across the horizontal surface at a constant speed by the force shown. If M = 5.0 kg, F = 14 N and θ = 35°, what is the coefficient of kinetic friction between the block and the horizontal surface? <strong>The block shown is pulled across the horizontal surface at a constant speed by the force shown. If M = 5.0 kg, F = 14 N and θ = 35°, what is the coefficient of kinetic friction between the block and the horizontal surface? </strong> A)0.44 B)0.33 C)0.38 D)0.28 E)0.17

A)0.44
B)0.33
C)0.38
D)0.28
E)0.17
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