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Deck 4: Forces and Newtons Laws of Motion

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Question
A 2150-kg truck is traveling along a straight, level road at a constant speed of 55.0 km/h when the driver removes his foot from the accelerator. After 21.0 s, the truck's speed is 33.0 km/h. What is the magnitude of the average net force acting on the truck during the 21.0 s interval?

A)2250 N
B)626 N
C)1890 N
D)972 N
E)229 N
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Question
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. Which section(s) of the graph corresponds to a condition of zero net force?</strong> A)V only B)III only C)II and IV D)II, III, and IV E)I, III, and V <div style=padding-top: 35px> The net force on the object always acts along the line of motion of the object.
Which section(s) of the graph corresponds to a condition of zero net force?

A)V only
B)III only
C)II and IV
D)II, III, and IV
E)I, III, and V
Question
When the net force that acts on a hockey puck is 12 N, the puck accelerates at a rate of 48 m/s2. Determine the mass of the puck.

A)0.25 kg
B)1.0 kg
C)5.0 kg
D)2.5 kg
E)2.0 kg
Question
A net force of 25 N is applied for 5.7 s to a 12-kg box initially at rest. What is the speed of the box at the end of the 5.7-s interval?

A)1.8 m/s
B)12 m/s
C)3.0 m/s
D)7.5 m/s
E)30 m/s
Question
Complete the following statement: The term net force most accurately describes

A)the mass of an object
B)the inertia of an object.
C)the quantity that causes a displacement.
D)the quantity that keeps an object moving.
E)the quantity that changes the velocity of an object.
Question
An apple crate with a weight of 225 N accelerates along a frictionless surface as the crate is pulled with a force of 14.5 N as shown in the drawing. What is the horizontal acceleration of the crate? <strong>An apple crate with a weight of 225 N accelerates along a frictionless surface as the crate is pulled with a force of 14.5 N as shown in the drawing. What is the horizontal acceleration of the crate? </strong> A)1.40 m/s<sup>2</sup> B)0.427 m/s<sup>2</sup> C)1.29 m/s<sup>2</sup> D)0.597 m/s<sup>2</sup> E)0.644 m/s<sup>2</sup> <div style=padding-top: 35px>

A)1.40 m/s2
B)0.427 m/s2
C)1.29 m/s2
D)0.597 m/s2
E)0.644 m/s2
Question
Two forces act on a 4.5-kg block resting on a frictionless surface as shown. What is the magnitude of the horizontal acceleration of the block? <strong>Two forces act on a 4.5-kg block resting on a frictionless surface as shown. What is the magnitude of the horizontal acceleration of the block? </strong> A)1.8 m/s<sup>2</sup> B)1.2 m/s<sup>2</sup> C)0.82 m/s<sup>2</sup> D)3.2 m/s<sup>2</sup> E)8.9 m/s<sup>2</sup> <div style=padding-top: 35px>

A)1.8 m/s2
B)1.2 m/s2
C)0.82 m/s2
D)3.2 m/s2
E)8.9 m/s2
Question
The graph shows the velocities of two objects of equal mass as a function of time. Net forces FA, FB, and FC acted on the objects during intervals A, B, and C, respectively. Which one of the following choices is the correct relationship between the magnitudes of the net forces? <strong>The graph shows the velocities of two objects of equal mass as a function of time. Net forces F<sub>A</sub>, F<sub>B</sub>, and F<sub>C</sub> acted on the objects during intervals A, B, and C, respectively. Which one of the following choices is the correct relationship between the magnitudes of the net forces? </strong> A)F<sub>B</sub> = F<sub>C</sub> > F<sub>A</sub> B)F<sub>C</sub> > F<sub>B</sub> > F<sub>A</sub> C)F<sub>A</sub> > F<sub>B</sub> = F<sub>C</sub> D)F<sub>A</sub> = F<sub>B</sub> = F<sub>C</sub> E)F<sub>A</sub> > F<sub>B</sub> > F<sub>C</sub> <div style=padding-top: 35px>

A)FB = FC > FA
B)FC > FB > FA
C)FA > FB = FC
D)FA = FB = FC
E)FA > FB > FC
Question
The figure shows the velocity versus time curve for a car traveling along a straight line. Which of the following statements is false? <strong>The figure shows the velocity versus time curve for a car traveling along a straight line. Which of the following statements is false? </strong> A)No net force acts on the car during interval B. B)Net forces act on the car during intervals A and C. C)Opposing forces may be acting on the car during interval B. D)Opposing forces may be acting on the car during interval C. E)The magnitude of the net force acting during interval A is less than that during C. <div style=padding-top: 35px>

A)No net force acts on the car during interval B.
B)Net forces act on the car during intervals A and C.
C)Opposing forces may be acting on the car during interval B.
D)Opposing forces may be acting on the car during interval C.
E)The magnitude of the net force acting during interval A is less than that during C.
Question
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. In which section(s) of the graph is the net force changing?</strong> A)I and III B)II and IV C)III D)IV E)I and V <div style=padding-top: 35px> The net force on the object always acts along the line of motion of the object.
In which section(s) of the graph is the net force changing?

A)I and III
B)II and IV
C)III
D)IV
E)I and V
Question
A 975-kg car accelerates from rest to 26.7 m/s in a distance of 120 m. What is the magnitude of the average net force acting on the car?

A)740 N
B)2900 N
C)91 N
D)1300 N
E)7900 N
Question
With one exception, each of the following units can be used to express mass. What is the exception?

A)newton
B)slug
C)gram
D)N•s2/m
E)kilogram
Question
Complete the following statement: An inertial reference frame is one in which

A)Newton's first law of motion is valid.
B)the inertias of objects within the frame are zero.
C)the frame is accelerating.
D)the acceleration due to gravity is greater than zero m/s2.
E)Newton's second law of motion is not valid.
Question
Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?

A) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above. <div style=padding-top: 35px>
B) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above. <div style=padding-top: 35px>
C) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above. <div style=padding-top: 35px>
D) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above. <div style=padding-top: 35px>
E)The magnitude of the acceleration will be the same in all four cases shown above.
Question
An object moves due east at constant speed. A net force directed due north then acts on the object for 5.0 s. At the end of the 5.0-second period, the net force drops to zero newtons. Which one of the following statements is necessarily true?

A)The object will be moving eastward when the force drops to zero newtons.
B)The change in the velocity of the object is directed north of west.
C)The direction of the object's acceleration depends on how fast the object was initially moving.
D)The final velocity of the object is directed north of east.
E)The magnitude of the object's acceleration depends on how fast the object was initially moving.
Question
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. Which section of the graph corresponds to the application of the largest constant net force?</strong> A)I B)II C)III D)IV E)V <div style=padding-top: 35px> The net force on the object always acts along the line of motion of the object.
Which section of the graph corresponds to the application of the largest constant net force?

A)I
B)II
C)III
D)IV
E)V
Question
A net force <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px> is required to give an object with mass m an acceleration a. If a net force 6 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px> is applied to an object with mass 2m, what is the acceleration on this object?

A) <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px>
B)2 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px>
C)3 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px>
D)4 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px>
E)6 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 <div style=padding-top: 35px>
Question
Which one of the following terms is used to indicate the natural tendency of an object to remain at rest or in motion at a constant speed along a straight line?

A)velocity
B)inertia
C)acceleration
D)equilibrium
E)force
Question
Two forces act on a 16-kg object. The first force has a magnitude of 68 N and is directed 24° north of east. The second force is 32 N, 48° north of west. What is the acceleration of the object resulting from the application of these two forces to the object?

A)1.6 m/s2, 5.5° north of east
B)1.9 m/s2, 18° north of west
C)2.4 m/s2, 34° north of east
D)3.6 m/s2, 5.5° north of west
E)4.1 m/s2, 52° north of east
Question
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. In which section of the graph is the magnitude of the net force decreasing?</strong> A)I B)II C)III D)IV E)V <div style=padding-top: 35px> The net force on the object always acts along the line of motion of the object.
In which section of the graph is the magnitude of the net force decreasing?

A)I
B)II
C)III
D)IV
E)V
Question
A horse pulls a cart along a flat road. Consider the following four forces that arise in this situation.
(1) the force of the horse pulling on the cart
(2) the force of the cart pulling on the horse
(3) the force of the horse pushing on the road
(4) the force of the road pushing on the horse
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A)1 and 4
B)1 and 3
C)2 and 4
D)3 and 4
E)2 and 3
Question
<strong> Which one of the following statements concerning this situation is true?</strong> A)The spacecraft does not move, but the astronaut moves to the right with a constant speed. B)The astronaut stops moving after he stops pushing on the spacecraft. C)The force exerted on the astronaut is larger than the force exerted on the spacecraft. D)The force exerted on the spacecraft is larger than the force exerted on the astronaut. E)The velocity of the astronaut increases while he is pushing on the spacecraft. <div style=padding-top: 35px>
Which one of the following statements concerning this situation is true?

A)The spacecraft does not move, but the astronaut moves to the right with a constant speed.
B)The astronaut stops moving after he stops pushing on the spacecraft.
C)The force exerted on the astronaut is larger than the force exerted on the spacecraft.
D)The force exerted on the spacecraft is larger than the force exerted on the astronaut.
E)The velocity of the astronaut increases while he is pushing on the spacecraft.
Question
Two point masses m and M are separated by a distance d. If the distance between the masses is increased to 3d, how does the gravitational force between them change?

A)The force will be one-third as great.
B)The force will be one-ninth as great.
C)The force will be three times as great.
D)The force will be nine times as great.
E)It is impossible to determine without knowing the numerical values of m, M, and d.
Question
A rock is thrown straight up from the earth's surface. Which one of the following statements concerning the net force acting on the rock at the top of its path is true?

A)The net force is equal to the weight of the rock.
B)The net force is instantaneously equal to zero newtons.
C)The direction of the net force changes from up to down.
D)The net force is greater than the weight of the rock.
E)The net force is less than the weight of the rock, but greater than zero newtons.
Question
A marble is dropped straight down from a distance h above the floor. Let Fm = the magnitude of the gravitational force on the marble due to the earth;
Fe = the magnitude of the gravitational force on the earth due to the marble;
Am = the magnitude of the acceleration of the marble toward the earth;
Ae = the magnitude of the acceleration of the earth toward the marble.
Which set of conditions is true as the marble falls toward the earth? Neglect any effects of air resistance.

A)Fm = Fe and am < ae
B)Fm < Fe and am > ae
C)Fm < Fe and am = ae
D)Fm > Fe and am = ae
E)Fm = Fe and am > ae
Question
A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation:
<strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px>
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 1= the weight of the hot air balloon
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 3= the force of the student pulling on the earth
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 2= the weight of the student
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 4= the force of the hot air balloon pulling on the student
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 1 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 2
B) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 2 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 3
C) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 1 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 3
D) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 2 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 4
E) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 3 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> <div style=padding-top: 35px> 4
Question
An astronaut orbits the earth in a space capsule whose height above the earth is equal to the earth's radius. How does the mass of the astronaut in the capsule compare to her mass on the earth?

A)Her mass is equal to her mass on earth.
B)Her mass is approximately equal to one-fourth her mass on earth.
C)Her mass is approximately equal to one-half of her mass on earth.
D)Her mass is approximately equal to one-third of her mass on earth.
E)Her mass is approximately equal to one-sixteenth her mass on earth.
Question
What is the weight of a 2.50-kg bag of sand on the surface of the earth?

A)2.50 N
B)9.80 N
C)24.5 N
D)49.0 N
E)98.0 N
Question
Which one of the following statements concerning the two "gravitational constants" G, the universal gravitational constant, and g the magnitude of the acceleration due to gravity is true?

A)The values of g and G depend on location.
B)The values of g and G do not depend on location.
C)The value of G is the same everywhere in the universe, but the value of g is not.
D)The value of g is the same everywhere in the universe, but the value of G is not.
E)The values of g and G are equal on the surface of any planet, but in general, G varies with location in the universe.
Question
Two satellites of different masses are in the same circular orbit around the earth. Which one of the following statements is true concerning the magnitude of the gravitational force that acts on each of them?

A)The magnitude of the gravitational force is zero newtons for both satellites.
B)The magnitude of the gravitational force is the same for both satellites, but not zero newtons.
C)The magnitude of the gravitational force is zero newtons for one, but not for the other.
D)The magnitude of the gravitational force depends on their masses.
E)The magnitude of the gravitational force varies from point to point in their orbits.
Question
Consider the following forces. (1) frictional (2) gravitational (3) tension (4) strong nuclear (5) normal (6) electroweak
Which of the forces listed are considered fundamental forces?

A)1, 2, and 4
B)1, 2, 3, and 5
C)1, 3, and 5
D)2, 4, and 6
E)2, 3, 4, and 6
Question
Which one of the following statements best explains why the weight of an object of mass m is different on Mars than it is on the Earth?

A)The mass of Mars is different from that of Earth.
B)The masses and radii of Mars and Earth are not the same.
C)The mass m is further from the Earth's center when it is on Mars.
D)The constant G is different on Mars.
E)The mass m will be different on Mars.
Question
A horse pulls a cart along a flat road. Consider the following four forces that arise in this situation.
(1) the force of the horse pulling on the cart
(2) the force of the cart pulling on the horse
(3) the force of the horse pushing on the road
(4) the force of the road pushing on the horse

-Suppose that the horse and cart have started from rest; and as time goes on, their speed increases in the same direction. Which one of the following conclusions is correct concerning the magnitudes of the forces mentioned above?

A)Force 1 exceeds force 2.
B)Force 2 is less than force 3.
C)Force 2 exceeds force 4.
D)Force 3 exceeds force 4.
E)Forces 1 and 2 cannot have equal magnitudes.
Question
<strong> The book has an acceleration of 0 m/s<sup>2</sup>. Which pair of forces, excluding action-reaction pairs, must be equal in magnitude and opposite in direction?</strong> A)1 and 2 B)1 and 3 C)1 and 4 D)2 and 3 E)2 and 4 <div style=padding-top: 35px>
The book has an acceleration of 0 m/s2. Which pair of forces, excluding "action-reaction" pairs, must be equal in magnitude and opposite in direction?

A)1 and 2
B)1 and 3
C)1 and 4
D)2 and 3
E)2 and 4
Question
An astronaut orbits the earth in a space capsule whose height above the earth is equal to the earth's radius. How does the weight of the astronaut in the capsule compare to her weight on the earth?

A)Her weight is equal to zero newtons.
B)Her weight is approximately equal to one-fourth her weight on earth.
C)Her weight is approximately equal to one-half of her weight on earth.
D)Her weight is approximately equal to one-third of her weight on earth.
E)Her weight is approximately equal to one-sixteenth her weight on earth.
Question
<strong> Determine the magnitude of the acceleration of the spacecraft.</strong> A)51.4 m/s<sup>2</sup> B)0.36 m/s<sup>2</sup> C)2.5 × 10<sup>-</sup><sup>3</sup> m/s<sup>2</sup> D)7.0 × 10<sup>-</sup><sup>3</sup> m/s<sup>2</sup> E)3.97 × 10<sup>-</sup><sup>4</sup> m/s<sup>2</sup> <div style=padding-top: 35px>
Determine the magnitude of the acceleration of the spacecraft.

A)51.4 m/s2
B)0.36 m/s2
C)2.5 × 10-3 m/s2
D)7.0 × 10-3 m/s2
E)3.97 × 10-4 m/s2
Question
Two point masses m and M are separated by a distance d. If the separation d remains fixed and the masses are increased to the values 3m and 3M respectively, how does the gravitational force between them change?

A)The force will be one-third as great.
B)The force will be one-ninth as great.
C)The force will be three times as great.
D)The force will be nine times as great.
E)It is impossible to determine without knowing the numerical values of m, M, and d.
Question
A 2.00-kg projectile is fired at an angle of 20.0°. What is the magnitude of the force exerted on the projectile when it is at the highest position in its trajectory? Neglect any effects of air resistance.

A)19.6 N
B)14.7 N
C)9.80 N
D)4.90 N
E)0 N
Question
A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation:
<strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> <div style=padding-top: 35px>
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 1= the weight of the hot air balloon
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 3= the force of the student pulling on the earth
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 2= the weight of the student
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 4= the force of the hot air balloon pulling on the student
Which one of the following relationships concerning the forces or their magnitudes is true?

A)F4 > F2
B)F1 < F2
C)F4 > F1
D) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> <div style=padding-top: 35px> 2 = - <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> <div style=padding-top: 35px> 4
E) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> <div style=padding-top: 35px> 3 = - <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> <div style=padding-top: 35px> 4
Question
<strong> Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A)1 and 2 B)1 and 3 C)1 and 4 D)2 and 4 E)3 and 4 <div style=padding-top: 35px>
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A)1 and 2
B)1 and 3
C)1 and 4
D)2 and 4
E)3 and 4
Question
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the force of static friction between the top and bottom blocks?</strong> A)zero newtons B)10 N C)20 N D)25 N E)30 N <div style=padding-top: 35px>
What is the force of static friction between the top and bottom blocks?

A)zero newtons
B)10 N
C)20 N
D)25 N
E)30 N
Question
A 44-kg child steps onto a scale and the scale reads 430 N. What is the magnitude of the normal force acting on the child?

A)44 N
B)215 N
C)430 N
D)645 N
E)860 N
Question
A 2.0-N force acts horizontally on a 10-N block that is initially at rest on a horizontal surface. The coefficient of static friction between the block and the surface is 0.50.
Suppose that the block now moves across the surface with constant speed under the action of a horizontal 3.0-N force. Which one of the following statements concerning this situation is false?

A)The block is not accelerated.
B)The net force on the block is zero newtons.
C)The frictional force on the block has magnitude 3.0 N.
D)The coefficient of kinetic friction between the block and the surface is 0.30.
E)The direction of the total force that the surface exerts on the block is vertically upward.
Question
A 8-kg block is set moving with an initial speed of 6 m/s on a rough horizontal surface. If the force of friction is 12 N, approximately how far does the block travel before it stops?

A)1.5 m
B)3 m
C)6 m
D)9 m
E)12 m
Question
A crate rests on the flatbed of a truck that is initially traveling at 15 m/s on a level road. The driver applies the brakes and the truck is brought to a halt in a distance of 38 m. If the deceleration of the truck is constant, what is the minimum coefficient of friction between the crate and the truck that is required to keep the crate from sliding?

A)0.20
B)0.30
C)0.39
D)0.59
E)This cannot be determined without knowing the mass of the crate.
Question
. The figure shows the free-body diagram for the block. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N <div style=padding-top: 35px> represents the normal force on the block; and <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N <div style=padding-top: 35px> represents the force of kinetic friction. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N <div style=padding-top: 35px>
If the coefficient of kinetic friction, <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N <div style=padding-top: 35px> , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?

A)1.6 N
B)4.0 N
C)160 N
D)270 N
E)410 N
Question
. The figure shows the free-body diagram for the block. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. <div style=padding-top: 35px> represents the normal force on the block; and <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. <div style=padding-top: 35px> represents the force of kinetic friction. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. <div style=padding-top: 35px>
What is the magnitude of <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. <div style=padding-top: 35px> ?

A)2mg
B)P
C)f
D)mg
E)This cannot be determined from the information given.
Question
pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. <div style=padding-top: 35px> represents the weight of the crate. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. <div style=padding-top: 35px> represents the normal force on the crate, and <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. <div style=padding-top: 35px> represents the frictional force. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. <div style=padding-top: 35px>
Which statement best describes the motion of the crate?

A)The crate must be at rest.
B)The crate must be moving with constant velocity.
C)The crate must be moving with constant acceleration.
D)The crate may be either at rest or moving with constant velocity.
E)The crate may be either at rest or moving with constant acceleration.
Question
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the minimum coefficient of static friction necessary to keep the top block from slipping on the bottom block?</strong> A)0.05 B)0.10 C)0.20 D)0.30 E)0.40 <div style=padding-top: 35px>
What is the minimum coefficient of static friction necessary to keep the top block from slipping on the bottom block?

A)0.05
B)0.10
C)0.20
D)0.30
E)0.40
Question
A 2.0-N force acts horizontally on a 10-N block that is initially at rest on a horizontal surface. The coefficient of static friction between the block and the surface is 0.50.
What is the magnitude of the frictional force that acts on the block?

A)0 N
B)2 N
C)5 N
D)8 N
E)10 N
Question
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the acceleration of the two block system?</strong> A)1 m/s<sup>2</sup> B)2 m/s<sup>2</sup> C)3 m/s<sup>2</sup> D)6 m/s<sup>2</sup> E)15 m/s<sup>2</sup> <div style=padding-top: 35px>
What is the acceleration of the "two block" system?

A)1 m/s2
B)2 m/s2
C)3 m/s2
D)6 m/s2
E)15 m/s2
Question
Note the following situations: <strong>Note the following situations: In which case will the magnitude of the normal force on the block be equal to (Mg + F sin \theta )?</strong> A)case 1 only B)case 2 only C)both cases 1 and 2 D)both cases 2 and 3 E)cases 1, 2, and 3 <div style=padding-top: 35px> In which case will the magnitude of the normal force on the block be equal to (Mg + F sin θ\theta )?

A)case 1 only
B)case 2 only
C)both cases 1 and 2
D)both cases 2 and 3
E)cases 1, 2, and 3
Question
A boy pulls a 5.0-kg sled with a rope that makes a 60.0° angle with respect to the horizontal surface of a frozen pond. The boy pulls on the rope with a force of 10.0 N; and the sled moves with constant velocity. What is the coefficient of friction between the sled and the ice?

A)0.09
B)0.12
C)0.18
D)0.06
E)0.24
Question
What is the magnitude of the gravitational force acting on a 79.5-kg student due to a 58.0-kg student sitting 2.40 m away in the classroom?

A)3.14 × 10-9 N
B)5.33 × 10-8 N
C)7.91 × 10-10 N
D)1.41 × 10-7 N
E)6.29 × 10-8 N
Question
pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N <div style=padding-top: 35px> represents the weight of the crate. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N <div style=padding-top: 35px> represents the normal force on the crate, and <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N <div style=padding-top: 35px> represents the frictional force. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N <div style=padding-top: 35px>
What is the magnitude of <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N <div style=padding-top: 35px> , the normal force on the crate?

A)57 N
B)80 N
C)160 N
D)196 N
E)230 N
Question
Two identical blocks are pulled along a rough surface as suggested in the figure. Which one of the following statements is false? <strong>Two identical blocks are pulled along a rough surface as suggested in the figure. Which one of the following statements is false? </strong> A)The coefficient of kinetic friction is the same in each case. B)A force of the same magnitude is needed to keep each block moving. C)A force of the same magnitude was required to start each block moving. D)The normal force exerted on the blocks by the surface is the same for both blocks. E)The magnitude of the force of kinetic friction is greater for the block on the right. <div style=padding-top: 35px>

A)The coefficient of kinetic friction is the same in each case.
B)A force of the same magnitude is needed to keep each block moving.
C)A force of the same magnitude was required to start each block moving.
D)The normal force exerted on the blocks by the surface is the same for both blocks.
E)The magnitude of the force of kinetic friction is greater for the block on the right.
Question
In an experiment with a block of wood on an inclined plane, with dimensions shown in the figure, the following observations are made: <strong>In an experiment with a block of wood on an inclined plane, with dimensions shown in the figure, the following observations are made: (1) If the block is placed on the inclined plane, it remains there at rest. (2) If the block is given a small push, it will accelerate toward the bottom of the incline without any further pushing. Which one of the following statements is the best conclusion that can be drawn from these observations?</strong> A)The coefficient of kinetic friction must be negative. B)Both coefficients of friction must be less than 0.25. C)Both coefficients of friction must be greater than 0.25. D)The coefficient of static friction must be less than the coefficient of kinetic friction. E)The coefficient of static friction is greater than 0.25 while the coefficient of kinetic friction is less than 0.25. <div style=padding-top: 35px> (1) If the block is placed on the inclined plane, it remains there at rest. (2) If the block is given a small push, it will accelerate toward the bottom of the incline without any further pushing.
Which one of the following statements is the best conclusion that can be drawn from these observations?

A)The coefficient of kinetic friction must be negative.
B)Both coefficients of friction must be less than 0.25.
C)Both coefficients of friction must be greater than 0.25.
D)The coefficient of static friction must be less than the coefficient of kinetic friction.
E)The coefficient of static friction is greater than 0.25 while the coefficient of kinetic friction is less than 0.25.
Question
A 250-N force is directed horizontally as shown to push a 29-kg box up an inclined plane at a constant speed. Determine the magnitude of the normal force, FN, and the coefficient of kinetic friction, µk. <strong>A 250-N force is directed horizontally as shown to push a 29-kg box up an inclined plane at a constant speed. Determine the magnitude of the normal force, F<sub>N</sub>, and the coefficient of kinetic friction, µ<sub>k</sub>. F<sub>N</sub> µ<sub>k</sub></strong> A)330 N 0.31 B)310 N 0.33 C)250 N 0.27 D)290 N 0.30 E)370 N 0.26 <div style=padding-top: 35px> FN µk

A)330 N 0.31
B)310 N 0.33
C)250 N 0.27
D)290 N 0.30
E)370 N 0.26
Question
The wheels of an automobile are locked as it slides to a stop from an initial speed of 30.0 m/s. If the coefficient of kinetic friction is 0.600 and the road is horizontal, approximately how long does it take the car to stop?

A)4.22 s
B)5.10 s
C)8.75 s
D)10.4 s
E)15.3 s
Question
A 2.0-N rock slides on a frictionless inclined plane. Which one of the following statements is true concerning the normal force that the plane exerts on the rock? <strong>A 2.0-N rock slides on a frictionless inclined plane. Which one of the following statements is true concerning the normal force that the plane exerts on the rock? </strong> A)The normal force is zero newtons. B)The normal force is 2.0 N. C)The normal force is less than 2.0 N, but greater than zero newtons. D)The normal force is greater than 2.0 N. E)It increases as the angle of inclination, \theta , is increased. <div style=padding-top: 35px>

A)The normal force is zero newtons.
B)The normal force is 2.0 N.
C)The normal force is less than 2.0 N, but greater than zero newtons.
D)The normal force is greater than 2.0 N.
E)It increases as the angle of inclination, θ\theta , is increased.
Question
A 20-kg crate is suspended from a fixed, horizontal beam by two vertical ropes. What is the approximate tension in each rope?

A)10 N
B)40 N
C)100 N
D)200 N
E)390 N
Question
A rock is suspended from a string; and it moves downward at constant speed. Which one of the following statements is true concerning the tension in the string if air resistance is not ignored?

A)The tension is zero newtons.
B)The tension points downward.
C)The tension is equal to the weight of the rock.
D)The tension is less than the weight of the rock.
E)The tension is greater than the weight of the rock.
Question
What is the tension in the right-hand cable?

A)87 N
B)150 N
C)170 N
D)260 N
E)300 N
Question
A rock is suspended from a string and moves downward at constant speed. Which statement is true concerning the tension in the string if air resistance is ignored?

A)The tension is zero newtons.
B)The tension points downward.
C)The tension is equal to the weight of the rock.
D)The tension is less than the weight of the rock.
E)The tension is greater than the weight of the rock.
Question
A woman stands on a bathroom scale in an elevator that is not moving. The scale reads 500 N. The elevator then moves downward at a constant velocity of 5 m/s. What does the scale read while the elevator descends with constant velocity?

A)100 N
B)250 N
C)500 N
D)600 N
E)750 N
Question
A rope connects boat A to boat B. Boat A starts from rest and accelerates to a speed of 9.5 m/s in a time t = 47 s. The mass of boat B is 540 kg. Assuming a constant frictional force of 230 N acts on boat B, what is the magnitude of the tension in the rope that connects the boats during the time that boat A is accelerating?

A)340 N
B)1270 N
C)230 N
D)860 N
E)160 N
Question
Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 <div style=padding-top: 35px> . The tension in the rope between the sleds is <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 <div style=padding-top: 35px> .
Determine the ratio of the magnitudes of the two forces, <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 <div style=padding-top: 35px> . <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 <div style=padding-top: 35px>

A)0.25
B)0.33
C)0.50
D)0.67
E)2.0
Question
A rock is suspended from a string; and it accelerates upward. Which statement is true concerning the tension in the string?

A)The tension points downward.
B)The tension is less than the weight of the rock.
C)The tension is equal to the weight of the rock.
D)The tension is greater than the weight of the rock.
E)The tension is independent of the magnitude of the rock's acceleration.
Question
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -If the string breaks, what is the magnitude of the acceleration of the block as it slides down the inclined plane?</strong> A)zero m/s<sup>2</sup> B)g C)g cos \theta D)g sin \theta E)g tan \theta <div style=padding-top: 35px>

-If the string breaks, what is the magnitude of the acceleration of the block as it slides down the inclined plane?

A)zero m/s2
B)g
C)g cos θ\theta
D)g sin θ\theta
E)g tan θ\theta
Question
In a tug-of-war, each man on a 5-man team pulls with an average force of 500 N. What is the tension in the center of the rope?

A)zero newtons
B)100 N
C)500 N
D)2500 N
E)5000 N
Question
A block of weight W is suspended by a string of fixed length. The ends of the string are held at various positions as shown in the figures below. In which case, if any, is the magnitude of the tension along the string the largest? <strong>A block of weight W is suspended by a string of fixed length. The ends of the string are held at various positions as shown in the figures below. In which case, if any, is the magnitude of the tension along the string the largest? </strong> A)case A B)case B C)case C D)case D E)The magnitude of the tension will be the same in all four cases, since the string must support the entire weight of the block. <div style=padding-top: 35px>

A)case A
B)case B
C)case C
D)case D
E)The magnitude of the tension will be the same in all four cases, since the string must support the entire weight of the block.
Question
What is the tension in the horizontal cable?

A)87 N
B)150 N
C)170 N
D)260 N
E)300 N
Question
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -What is the magnitude of the tension in the string?</strong> A)zero newtons B)Mg C)Mg cos \theta D)Mg sin \theta E)Mg tan \theta <div style=padding-top: 35px>

-What is the magnitude of the tension in the string?

A)zero newtons
B)Mg
C)Mg cos θ\theta
D)Mg sin θ\theta
E)Mg tan θ\theta
Question
A muscle builder holds the ends of a massless rope. At the center of the rope, a 7.9-kg ball is hung as shown. What is the tension in the rope if the angle θ\theta in the drawing is 6.0°? <strong>A muscle builder holds the ends of a massless rope. At the center of the rope, a 7.9-kg ball is hung as shown. What is the tension in the rope if the angle \theta in the drawing is 6.0°? </strong> A)960 N B)740 N C)370 N D)230 N E)150 N <div style=padding-top: 35px>

A)960 N
B)740 N
C)370 N
D)230 N
E)150 N
Question
A rock is suspended from a string; and it accelerates downward. Which one of the following statements concerning the tension in the string is true?

A)The tension points downward.
B)The tension is less than the weight of the rock.
C)The tension is equal to the weight of the rock.
D)The tension is greater than the weight of the rock.
E)The tension is independent of the magnitude of the rock's acceleration.
Question
A small plane climbs with a constant velocity of 240 m/s at an angle of 24° with respect to the horizontal. Which statement is true concerning the magnitude of the net force on the plane?

A)It is equal to zero newtons.
B)It is equal to the weight of the plane.
C)It is equal to the magnitude of the force of air resistance.
D)It is less than the weight of the plane but greater than zero newtons.
E)It is equal to the component of the weight of the plane in the direction of motion.
Question
Under what condition(s) will an object be in equilibrium?

A)If the object is either at rest or moving with constant velocity, it is in equilibrium.
B)If the object is either moving with constant velocity or with constant acceleration, it is in equilibrium.
C)Only if the object is at rest can it be in equilibrium.
D)Only if the object is moving with constant velocity can it be in equilibrium.
E)Only if the object is moving with constant acceleration can it be in equilibrium.
Question
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -Assume the plane is not frictionless and the string breaks, what minimum value of the coefficient of static friction, \mu <sub>s</sub>, would prevent the block from sliding down the inclined plane?</strong> A)zero B)1 C)cos \theta D)sin \theta E)tan \theta <div style=padding-top: 35px>

-Assume the plane is not frictionless and the string breaks, what minimum value of the coefficient of static friction, μ\mu s, would prevent the block from sliding down the inclined plane?

A)zero
B)1
C)cos θ\theta
D)sin θ\theta
E)tan θ\theta
Question
A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A 4-kg block is connected by means of a massless rope to a 2-kg block as shown in the figure. Complete the following statement: If the 4-kg block is to begin sliding, the coefficient of static friction between the 4-kg block and the surface must be <strong>A 4-kg block is connected by means of a massless rope to a 2-kg block as shown in the figure. Complete the following statement: If the 4-kg block is to begin sliding, the coefficient of static friction between the 4-kg block and the surface must be </strong> A)less than zero. B)greater than 2. C)greater than 1, but less than 2. D)greater than 0.5, but less than 1. E)less than 0.5, but greater than zero. <div style=padding-top: 35px>

A)less than zero.
B)greater than 2.
C)greater than 1, but less than 2.
D)greater than 0.5, but less than 1.
E)less than 0.5, but greater than zero.
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Deck 4: Forces and Newtons Laws of Motion
1
A 2150-kg truck is traveling along a straight, level road at a constant speed of 55.0 km/h when the driver removes his foot from the accelerator. After 21.0 s, the truck's speed is 33.0 km/h. What is the magnitude of the average net force acting on the truck during the 21.0 s interval?

A)2250 N
B)626 N
C)1890 N
D)972 N
E)229 N
626 N
2
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. Which section(s) of the graph corresponds to a condition of zero net force?</strong> A)V only B)III only C)II and IV D)II, III, and IV E)I, III, and V The net force on the object always acts along the line of motion of the object.
Which section(s) of the graph corresponds to a condition of zero net force?

A)V only
B)III only
C)II and IV
D)II, III, and IV
E)I, III, and V
II and IV
3
When the net force that acts on a hockey puck is 12 N, the puck accelerates at a rate of 48 m/s2. Determine the mass of the puck.

A)0.25 kg
B)1.0 kg
C)5.0 kg
D)2.5 kg
E)2.0 kg
0.25 kg
4
A net force of 25 N is applied for 5.7 s to a 12-kg box initially at rest. What is the speed of the box at the end of the 5.7-s interval?

A)1.8 m/s
B)12 m/s
C)3.0 m/s
D)7.5 m/s
E)30 m/s
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5
Complete the following statement: The term net force most accurately describes

A)the mass of an object
B)the inertia of an object.
C)the quantity that causes a displacement.
D)the quantity that keeps an object moving.
E)the quantity that changes the velocity of an object.
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6
An apple crate with a weight of 225 N accelerates along a frictionless surface as the crate is pulled with a force of 14.5 N as shown in the drawing. What is the horizontal acceleration of the crate? <strong>An apple crate with a weight of 225 N accelerates along a frictionless surface as the crate is pulled with a force of 14.5 N as shown in the drawing. What is the horizontal acceleration of the crate? </strong> A)1.40 m/s<sup>2</sup> B)0.427 m/s<sup>2</sup> C)1.29 m/s<sup>2</sup> D)0.597 m/s<sup>2</sup> E)0.644 m/s<sup>2</sup>

A)1.40 m/s2
B)0.427 m/s2
C)1.29 m/s2
D)0.597 m/s2
E)0.644 m/s2
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7
Two forces act on a 4.5-kg block resting on a frictionless surface as shown. What is the magnitude of the horizontal acceleration of the block? <strong>Two forces act on a 4.5-kg block resting on a frictionless surface as shown. What is the magnitude of the horizontal acceleration of the block? </strong> A)1.8 m/s<sup>2</sup> B)1.2 m/s<sup>2</sup> C)0.82 m/s<sup>2</sup> D)3.2 m/s<sup>2</sup> E)8.9 m/s<sup>2</sup>

A)1.8 m/s2
B)1.2 m/s2
C)0.82 m/s2
D)3.2 m/s2
E)8.9 m/s2
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8
The graph shows the velocities of two objects of equal mass as a function of time. Net forces FA, FB, and FC acted on the objects during intervals A, B, and C, respectively. Which one of the following choices is the correct relationship between the magnitudes of the net forces? <strong>The graph shows the velocities of two objects of equal mass as a function of time. Net forces F<sub>A</sub>, F<sub>B</sub>, and F<sub>C</sub> acted on the objects during intervals A, B, and C, respectively. Which one of the following choices is the correct relationship between the magnitudes of the net forces? </strong> A)F<sub>B</sub> = F<sub>C</sub> > F<sub>A</sub> B)F<sub>C</sub> > F<sub>B</sub> > F<sub>A</sub> C)F<sub>A</sub> > F<sub>B</sub> = F<sub>C</sub> D)F<sub>A</sub> = F<sub>B</sub> = F<sub>C</sub> E)F<sub>A</sub> > F<sub>B</sub> > F<sub>C</sub>

A)FB = FC > FA
B)FC > FB > FA
C)FA > FB = FC
D)FA = FB = FC
E)FA > FB > FC
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9
The figure shows the velocity versus time curve for a car traveling along a straight line. Which of the following statements is false? <strong>The figure shows the velocity versus time curve for a car traveling along a straight line. Which of the following statements is false? </strong> A)No net force acts on the car during interval B. B)Net forces act on the car during intervals A and C. C)Opposing forces may be acting on the car during interval B. D)Opposing forces may be acting on the car during interval C. E)The magnitude of the net force acting during interval A is less than that during C.

A)No net force acts on the car during interval B.
B)Net forces act on the car during intervals A and C.
C)Opposing forces may be acting on the car during interval B.
D)Opposing forces may be acting on the car during interval C.
E)The magnitude of the net force acting during interval A is less than that during C.
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10
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. In which section(s) of the graph is the net force changing?</strong> A)I and III B)II and IV C)III D)IV E)I and V The net force on the object always acts along the line of motion of the object.
In which section(s) of the graph is the net force changing?

A)I and III
B)II and IV
C)III
D)IV
E)I and V
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11
A 975-kg car accelerates from rest to 26.7 m/s in a distance of 120 m. What is the magnitude of the average net force acting on the car?

A)740 N
B)2900 N
C)91 N
D)1300 N
E)7900 N
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12
With one exception, each of the following units can be used to express mass. What is the exception?

A)newton
B)slug
C)gram
D)N•s2/m
E)kilogram
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13
Complete the following statement: An inertial reference frame is one in which

A)Newton's first law of motion is valid.
B)the inertias of objects within the frame are zero.
C)the frame is accelerating.
D)the acceleration due to gravity is greater than zero m/s2.
E)Newton's second law of motion is not valid.
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14
Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?

A) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above.
B) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above.
C) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above.
D) <strong>Two forces act on a hockey puck. For which orientation of the forces will the puck acquire an acceleration with the largest magnitude?</strong> A) B) C) D) E)The magnitude of the acceleration will be the same in all four cases shown above.
E)The magnitude of the acceleration will be the same in all four cases shown above.
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15
An object moves due east at constant speed. A net force directed due north then acts on the object for 5.0 s. At the end of the 5.0-second period, the net force drops to zero newtons. Which one of the following statements is necessarily true?

A)The object will be moving eastward when the force drops to zero newtons.
B)The change in the velocity of the object is directed north of west.
C)The direction of the object's acceleration depends on how fast the object was initially moving.
D)The final velocity of the object is directed north of east.
E)The magnitude of the object's acceleration depends on how fast the object was initially moving.
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16
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. Which section of the graph corresponds to the application of the largest constant net force?</strong> A)I B)II C)III D)IV E)V The net force on the object always acts along the line of motion of the object.
Which section of the graph corresponds to the application of the largest constant net force?

A)I
B)II
C)III
D)IV
E)V
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17
A net force <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 is required to give an object with mass m an acceleration a. If a net force 6 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6 is applied to an object with mass 2m, what is the acceleration on this object?

A) <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6
B)2 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6
C)3 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6
D)4 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6
E)6 <strong>A net force is required to give an object with mass m an acceleration a. If a net force 6 is applied to an object with mass 2m, what is the acceleration on this object?</strong> A) B)2 C)3 D)4 E)6
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18
Which one of the following terms is used to indicate the natural tendency of an object to remain at rest or in motion at a constant speed along a straight line?

A)velocity
B)inertia
C)acceleration
D)equilibrium
E)force
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19
Two forces act on a 16-kg object. The first force has a magnitude of 68 N and is directed 24° north of east. The second force is 32 N, 48° north of west. What is the acceleration of the object resulting from the application of these two forces to the object?

A)1.6 m/s2, 5.5° north of east
B)1.9 m/s2, 18° north of west
C)2.4 m/s2, 34° north of east
D)3.6 m/s2, 5.5° north of west
E)4.1 m/s2, 52° north of east
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20
A 2.0-kg object moves in a straight line on a horizontal frictionless surface.
The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. <strong>A 2.0-kg object moves in a straight line on a horizontal frictionless surface. The graph shows the velocity of the object as a function of time. The various equal time intervals are labeled using Roman numerals: I, II, III, IV, and V. The net force on the object always acts along the line of motion of the object. In which section of the graph is the magnitude of the net force decreasing?</strong> A)I B)II C)III D)IV E)V The net force on the object always acts along the line of motion of the object.
In which section of the graph is the magnitude of the net force decreasing?

A)I
B)II
C)III
D)IV
E)V
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21
A horse pulls a cart along a flat road. Consider the following four forces that arise in this situation.
(1) the force of the horse pulling on the cart
(2) the force of the cart pulling on the horse
(3) the force of the horse pushing on the road
(4) the force of the road pushing on the horse
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A)1 and 4
B)1 and 3
C)2 and 4
D)3 and 4
E)2 and 3
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22
<strong> Which one of the following statements concerning this situation is true?</strong> A)The spacecraft does not move, but the astronaut moves to the right with a constant speed. B)The astronaut stops moving after he stops pushing on the spacecraft. C)The force exerted on the astronaut is larger than the force exerted on the spacecraft. D)The force exerted on the spacecraft is larger than the force exerted on the astronaut. E)The velocity of the astronaut increases while he is pushing on the spacecraft.
Which one of the following statements concerning this situation is true?

A)The spacecraft does not move, but the astronaut moves to the right with a constant speed.
B)The astronaut stops moving after he stops pushing on the spacecraft.
C)The force exerted on the astronaut is larger than the force exerted on the spacecraft.
D)The force exerted on the spacecraft is larger than the force exerted on the astronaut.
E)The velocity of the astronaut increases while he is pushing on the spacecraft.
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23
Two point masses m and M are separated by a distance d. If the distance between the masses is increased to 3d, how does the gravitational force between them change?

A)The force will be one-third as great.
B)The force will be one-ninth as great.
C)The force will be three times as great.
D)The force will be nine times as great.
E)It is impossible to determine without knowing the numerical values of m, M, and d.
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24
A rock is thrown straight up from the earth's surface. Which one of the following statements concerning the net force acting on the rock at the top of its path is true?

A)The net force is equal to the weight of the rock.
B)The net force is instantaneously equal to zero newtons.
C)The direction of the net force changes from up to down.
D)The net force is greater than the weight of the rock.
E)The net force is less than the weight of the rock, but greater than zero newtons.
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25
A marble is dropped straight down from a distance h above the floor. Let Fm = the magnitude of the gravitational force on the marble due to the earth;
Fe = the magnitude of the gravitational force on the earth due to the marble;
Am = the magnitude of the acceleration of the marble toward the earth;
Ae = the magnitude of the acceleration of the earth toward the marble.
Which set of conditions is true as the marble falls toward the earth? Neglect any effects of air resistance.

A)Fm = Fe and am < ae
B)Fm < Fe and am > ae
C)Fm < Fe and am = ae
D)Fm > Fe and am = ae
E)Fm = Fe and am > ae
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26
A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation:
<strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub>
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 1= the weight of the hot air balloon
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 3= the force of the student pulling on the earth
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 2= the weight of the student
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 4= the force of the hot air balloon pulling on the student
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 1 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 2
B) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 2 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 3
C) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 1 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 3
D) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 2 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 4
E) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 3 and <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A) <sub>1</sub> and <sub>2</sub> B) <sub>2</sub> and <sub>3</sub> C) <sub>1</sub> and <sub>3</sub> D) <sub>2</sub> and <sub>4</sub> E) <sub>3</sub> and <sub>4</sub> 4
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27
An astronaut orbits the earth in a space capsule whose height above the earth is equal to the earth's radius. How does the mass of the astronaut in the capsule compare to her mass on the earth?

A)Her mass is equal to her mass on earth.
B)Her mass is approximately equal to one-fourth her mass on earth.
C)Her mass is approximately equal to one-half of her mass on earth.
D)Her mass is approximately equal to one-third of her mass on earth.
E)Her mass is approximately equal to one-sixteenth her mass on earth.
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28
What is the weight of a 2.50-kg bag of sand on the surface of the earth?

A)2.50 N
B)9.80 N
C)24.5 N
D)49.0 N
E)98.0 N
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29
Which one of the following statements concerning the two "gravitational constants" G, the universal gravitational constant, and g the magnitude of the acceleration due to gravity is true?

A)The values of g and G depend on location.
B)The values of g and G do not depend on location.
C)The value of G is the same everywhere in the universe, but the value of g is not.
D)The value of g is the same everywhere in the universe, but the value of G is not.
E)The values of g and G are equal on the surface of any planet, but in general, G varies with location in the universe.
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30
Two satellites of different masses are in the same circular orbit around the earth. Which one of the following statements is true concerning the magnitude of the gravitational force that acts on each of them?

A)The magnitude of the gravitational force is zero newtons for both satellites.
B)The magnitude of the gravitational force is the same for both satellites, but not zero newtons.
C)The magnitude of the gravitational force is zero newtons for one, but not for the other.
D)The magnitude of the gravitational force depends on their masses.
E)The magnitude of the gravitational force varies from point to point in their orbits.
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31
Consider the following forces. (1) frictional (2) gravitational (3) tension (4) strong nuclear (5) normal (6) electroweak
Which of the forces listed are considered fundamental forces?

A)1, 2, and 4
B)1, 2, 3, and 5
C)1, 3, and 5
D)2, 4, and 6
E)2, 3, 4, and 6
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32
Which one of the following statements best explains why the weight of an object of mass m is different on Mars than it is on the Earth?

A)The mass of Mars is different from that of Earth.
B)The masses and radii of Mars and Earth are not the same.
C)The mass m is further from the Earth's center when it is on Mars.
D)The constant G is different on Mars.
E)The mass m will be different on Mars.
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33
A horse pulls a cart along a flat road. Consider the following four forces that arise in this situation.
(1) the force of the horse pulling on the cart
(2) the force of the cart pulling on the horse
(3) the force of the horse pushing on the road
(4) the force of the road pushing on the horse

-Suppose that the horse and cart have started from rest; and as time goes on, their speed increases in the same direction. Which one of the following conclusions is correct concerning the magnitudes of the forces mentioned above?

A)Force 1 exceeds force 2.
B)Force 2 is less than force 3.
C)Force 2 exceeds force 4.
D)Force 3 exceeds force 4.
E)Forces 1 and 2 cannot have equal magnitudes.
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34
<strong> The book has an acceleration of 0 m/s<sup>2</sup>. Which pair of forces, excluding action-reaction pairs, must be equal in magnitude and opposite in direction?</strong> A)1 and 2 B)1 and 3 C)1 and 4 D)2 and 3 E)2 and 4
The book has an acceleration of 0 m/s2. Which pair of forces, excluding "action-reaction" pairs, must be equal in magnitude and opposite in direction?

A)1 and 2
B)1 and 3
C)1 and 4
D)2 and 3
E)2 and 4
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35
An astronaut orbits the earth in a space capsule whose height above the earth is equal to the earth's radius. How does the weight of the astronaut in the capsule compare to her weight on the earth?

A)Her weight is equal to zero newtons.
B)Her weight is approximately equal to one-fourth her weight on earth.
C)Her weight is approximately equal to one-half of her weight on earth.
D)Her weight is approximately equal to one-third of her weight on earth.
E)Her weight is approximately equal to one-sixteenth her weight on earth.
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36
<strong> Determine the magnitude of the acceleration of the spacecraft.</strong> A)51.4 m/s<sup>2</sup> B)0.36 m/s<sup>2</sup> C)2.5 × 10<sup>-</sup><sup>3</sup> m/s<sup>2</sup> D)7.0 × 10<sup>-</sup><sup>3</sup> m/s<sup>2</sup> E)3.97 × 10<sup>-</sup><sup>4</sup> m/s<sup>2</sup>
Determine the magnitude of the acceleration of the spacecraft.

A)51.4 m/s2
B)0.36 m/s2
C)2.5 × 10-3 m/s2
D)7.0 × 10-3 m/s2
E)3.97 × 10-4 m/s2
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37
Two point masses m and M are separated by a distance d. If the separation d remains fixed and the masses are increased to the values 3m and 3M respectively, how does the gravitational force between them change?

A)The force will be one-third as great.
B)The force will be one-ninth as great.
C)The force will be three times as great.
D)The force will be nine times as great.
E)It is impossible to determine without knowing the numerical values of m, M, and d.
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38
A 2.00-kg projectile is fired at an angle of 20.0°. What is the magnitude of the force exerted on the projectile when it is at the highest position in its trajectory? Neglect any effects of air resistance.

A)19.6 N
B)14.7 N
C)9.80 N
D)4.90 N
E)0 N
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39
A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation:
<strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub>
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 1= the weight of the hot air balloon
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 3= the force of the student pulling on the earth
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 2= the weight of the student
11ec874b_21ea_ddf1_a44c_811fc40246c2_TB34225555_11 4= the force of the hot air balloon pulling on the student
Which one of the following relationships concerning the forces or their magnitudes is true?

A)F4 > F2
B)F1 < F2
C)F4 > F1
D) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> 2 = - <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> 4
E) <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> 3 = - <strong>A physics student in a hot air balloon ascends vertically at constant speed. Consider the following four forces present in this situation: 1= the weight of the hot air balloon 3= the force of the student pulling on the earth 2= the weight of the student 4= the force of the hot air balloon pulling on the student Which one of the following relationships concerning the forces or their magnitudes is true?</strong> A)F<sub>4</sub> > F<sub>2</sub> B)F<sub>1 </sub>< F<sub>2</sub> C)F<sub>4 </sub>> F<sub>1</sub> D) <sub>2</sub> = - <sub>4</sub> E) <sub>3</sub> = - <sub>4</sub> 4
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40
<strong> Which two forces form an action-reaction pair that obeys Newton's third law?</strong> A)1 and 2 B)1 and 3 C)1 and 4 D)2 and 4 E)3 and 4
Which two forces form an "action-reaction" pair that obeys Newton's third law?

A)1 and 2
B)1 and 3
C)1 and 4
D)2 and 4
E)3 and 4
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41
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the force of static friction between the top and bottom blocks?</strong> A)zero newtons B)10 N C)20 N D)25 N E)30 N
What is the force of static friction between the top and bottom blocks?

A)zero newtons
B)10 N
C)20 N
D)25 N
E)30 N
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42
A 44-kg child steps onto a scale and the scale reads 430 N. What is the magnitude of the normal force acting on the child?

A)44 N
B)215 N
C)430 N
D)645 N
E)860 N
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43
A 2.0-N force acts horizontally on a 10-N block that is initially at rest on a horizontal surface. The coefficient of static friction between the block and the surface is 0.50.
Suppose that the block now moves across the surface with constant speed under the action of a horizontal 3.0-N force. Which one of the following statements concerning this situation is false?

A)The block is not accelerated.
B)The net force on the block is zero newtons.
C)The frictional force on the block has magnitude 3.0 N.
D)The coefficient of kinetic friction between the block and the surface is 0.30.
E)The direction of the total force that the surface exerts on the block is vertically upward.
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44
A 8-kg block is set moving with an initial speed of 6 m/s on a rough horizontal surface. If the force of friction is 12 N, approximately how far does the block travel before it stops?

A)1.5 m
B)3 m
C)6 m
D)9 m
E)12 m
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45
A crate rests on the flatbed of a truck that is initially traveling at 15 m/s on a level road. The driver applies the brakes and the truck is brought to a halt in a distance of 38 m. If the deceleration of the truck is constant, what is the minimum coefficient of friction between the crate and the truck that is required to keep the crate from sliding?

A)0.20
B)0.30
C)0.39
D)0.59
E)This cannot be determined without knowing the mass of the crate.
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46
. The figure shows the free-body diagram for the block. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N represents the normal force on the block; and <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N represents the force of kinetic friction. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N
If the coefficient of kinetic friction, <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. If the coefficient of kinetic friction, , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?</strong> A)1.6 N B)4.0 N C)160 N D)270 N E)410 N , between the block and the surface is 0.30 and the magnitude of the frictional force is 80.0 N, what is the weight of the block?

A)1.6 N
B)4.0 N
C)160 N
D)270 N
E)410 N
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47
. The figure shows the free-body diagram for the block. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. represents the normal force on the block; and <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. represents the force of kinetic friction. <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given.
What is the magnitude of <strong>. The figure shows the free-body diagram for the block. represents the normal force on the block; and represents the force of kinetic friction. What is the magnitude of ?</strong> A)2mg B)P C)f D)mg E)This cannot be determined from the information given. ?

A)2mg
B)P
C)f
D)mg
E)This cannot be determined from the information given.
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48
pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. represents the weight of the crate. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. represents the normal force on the crate, and <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration. represents the frictional force. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. Which statement best describes the motion of the crate?</strong> A)The crate must be at rest. B)The crate must be moving with constant velocity. C)The crate must be moving with constant acceleration. D)The crate may be either at rest or moving with constant velocity. E)The crate may be either at rest or moving with constant acceleration.
Which statement best describes the motion of the crate?

A)The crate must be at rest.
B)The crate must be moving with constant velocity.
C)The crate must be moving with constant acceleration.
D)The crate may be either at rest or moving with constant velocity.
E)The crate may be either at rest or moving with constant acceleration.
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49
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the minimum coefficient of static friction necessary to keep the top block from slipping on the bottom block?</strong> A)0.05 B)0.10 C)0.20 D)0.30 E)0.40
What is the minimum coefficient of static friction necessary to keep the top block from slipping on the bottom block?

A)0.05
B)0.10
C)0.20
D)0.30
E)0.40
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50
A 2.0-N force acts horizontally on a 10-N block that is initially at rest on a horizontal surface. The coefficient of static friction between the block and the surface is 0.50.
What is the magnitude of the frictional force that acts on the block?

A)0 N
B)2 N
C)5 N
D)8 N
E)10 N
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51
Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. <strong>Two blocks rest on a horizontal frictionless surface as shown. The surface between the top and bottom blocks is roughened so that there is no slipping between the two blocks. A 30-N force is applied to the bottom block as suggested in the figure. What is the acceleration of the two block system?</strong> A)1 m/s<sup>2</sup> B)2 m/s<sup>2</sup> C)3 m/s<sup>2</sup> D)6 m/s<sup>2</sup> E)15 m/s<sup>2</sup>
What is the acceleration of the "two block" system?

A)1 m/s2
B)2 m/s2
C)3 m/s2
D)6 m/s2
E)15 m/s2
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52
Note the following situations: <strong>Note the following situations: In which case will the magnitude of the normal force on the block be equal to (Mg + F sin \theta )?</strong> A)case 1 only B)case 2 only C)both cases 1 and 2 D)both cases 2 and 3 E)cases 1, 2, and 3 In which case will the magnitude of the normal force on the block be equal to (Mg + F sin θ\theta )?

A)case 1 only
B)case 2 only
C)both cases 1 and 2
D)both cases 2 and 3
E)cases 1, 2, and 3
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53
A boy pulls a 5.0-kg sled with a rope that makes a 60.0° angle with respect to the horizontal surface of a frozen pond. The boy pulls on the rope with a force of 10.0 N; and the sled moves with constant velocity. What is the coefficient of friction between the sled and the ice?

A)0.09
B)0.12
C)0.18
D)0.06
E)0.24
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54
What is the magnitude of the gravitational force acting on a 79.5-kg student due to a 58.0-kg student sitting 2.40 m away in the classroom?

A)3.14 × 10-9 N
B)5.33 × 10-8 N
C)7.91 × 10-10 N
D)1.41 × 10-7 N
E)6.29 × 10-8 N
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55
pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N represents the weight of the crate. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N represents the normal force on the crate, and <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N represents the frictional force. <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N
What is the magnitude of <strong>pulls on a crate of mass m that is in contact with a rough surface. The figure shows the magnitudes and directions of the forces that act on the crate in this situation. represents the weight of the crate. represents the normal force on the crate, and represents the frictional force. What is the magnitude of , the normal force on the crate?</strong> A)57 N B)80 N C)160 N D)196 N E)230 N , the normal force on the crate?

A)57 N
B)80 N
C)160 N
D)196 N
E)230 N
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56
Two identical blocks are pulled along a rough surface as suggested in the figure. Which one of the following statements is false? <strong>Two identical blocks are pulled along a rough surface as suggested in the figure. Which one of the following statements is false? </strong> A)The coefficient of kinetic friction is the same in each case. B)A force of the same magnitude is needed to keep each block moving. C)A force of the same magnitude was required to start each block moving. D)The normal force exerted on the blocks by the surface is the same for both blocks. E)The magnitude of the force of kinetic friction is greater for the block on the right.

A)The coefficient of kinetic friction is the same in each case.
B)A force of the same magnitude is needed to keep each block moving.
C)A force of the same magnitude was required to start each block moving.
D)The normal force exerted on the blocks by the surface is the same for both blocks.
E)The magnitude of the force of kinetic friction is greater for the block on the right.
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57
In an experiment with a block of wood on an inclined plane, with dimensions shown in the figure, the following observations are made: <strong>In an experiment with a block of wood on an inclined plane, with dimensions shown in the figure, the following observations are made: (1) If the block is placed on the inclined plane, it remains there at rest. (2) If the block is given a small push, it will accelerate toward the bottom of the incline without any further pushing. Which one of the following statements is the best conclusion that can be drawn from these observations?</strong> A)The coefficient of kinetic friction must be negative. B)Both coefficients of friction must be less than 0.25. C)Both coefficients of friction must be greater than 0.25. D)The coefficient of static friction must be less than the coefficient of kinetic friction. E)The coefficient of static friction is greater than 0.25 while the coefficient of kinetic friction is less than 0.25. (1) If the block is placed on the inclined plane, it remains there at rest. (2) If the block is given a small push, it will accelerate toward the bottom of the incline without any further pushing.
Which one of the following statements is the best conclusion that can be drawn from these observations?

A)The coefficient of kinetic friction must be negative.
B)Both coefficients of friction must be less than 0.25.
C)Both coefficients of friction must be greater than 0.25.
D)The coefficient of static friction must be less than the coefficient of kinetic friction.
E)The coefficient of static friction is greater than 0.25 while the coefficient of kinetic friction is less than 0.25.
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58
A 250-N force is directed horizontally as shown to push a 29-kg box up an inclined plane at a constant speed. Determine the magnitude of the normal force, FN, and the coefficient of kinetic friction, µk. <strong>A 250-N force is directed horizontally as shown to push a 29-kg box up an inclined plane at a constant speed. Determine the magnitude of the normal force, F<sub>N</sub>, and the coefficient of kinetic friction, µ<sub>k</sub>. F<sub>N</sub> µ<sub>k</sub></strong> A)330 N 0.31 B)310 N 0.33 C)250 N 0.27 D)290 N 0.30 E)370 N 0.26 FN µk

A)330 N 0.31
B)310 N 0.33
C)250 N 0.27
D)290 N 0.30
E)370 N 0.26
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59
The wheels of an automobile are locked as it slides to a stop from an initial speed of 30.0 m/s. If the coefficient of kinetic friction is 0.600 and the road is horizontal, approximately how long does it take the car to stop?

A)4.22 s
B)5.10 s
C)8.75 s
D)10.4 s
E)15.3 s
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60
A 2.0-N rock slides on a frictionless inclined plane. Which one of the following statements is true concerning the normal force that the plane exerts on the rock? <strong>A 2.0-N rock slides on a frictionless inclined plane. Which one of the following statements is true concerning the normal force that the plane exerts on the rock? </strong> A)The normal force is zero newtons. B)The normal force is 2.0 N. C)The normal force is less than 2.0 N, but greater than zero newtons. D)The normal force is greater than 2.0 N. E)It increases as the angle of inclination, \theta , is increased.

A)The normal force is zero newtons.
B)The normal force is 2.0 N.
C)The normal force is less than 2.0 N, but greater than zero newtons.
D)The normal force is greater than 2.0 N.
E)It increases as the angle of inclination, θ\theta , is increased.
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61
A 20-kg crate is suspended from a fixed, horizontal beam by two vertical ropes. What is the approximate tension in each rope?

A)10 N
B)40 N
C)100 N
D)200 N
E)390 N
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62
A rock is suspended from a string; and it moves downward at constant speed. Which one of the following statements is true concerning the tension in the string if air resistance is not ignored?

A)The tension is zero newtons.
B)The tension points downward.
C)The tension is equal to the weight of the rock.
D)The tension is less than the weight of the rock.
E)The tension is greater than the weight of the rock.
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63
What is the tension in the right-hand cable?

A)87 N
B)150 N
C)170 N
D)260 N
E)300 N
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64
A rock is suspended from a string and moves downward at constant speed. Which statement is true concerning the tension in the string if air resistance is ignored?

A)The tension is zero newtons.
B)The tension points downward.
C)The tension is equal to the weight of the rock.
D)The tension is less than the weight of the rock.
E)The tension is greater than the weight of the rock.
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65
A woman stands on a bathroom scale in an elevator that is not moving. The scale reads 500 N. The elevator then moves downward at a constant velocity of 5 m/s. What does the scale read while the elevator descends with constant velocity?

A)100 N
B)250 N
C)500 N
D)600 N
E)750 N
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66
A rope connects boat A to boat B. Boat A starts from rest and accelerates to a speed of 9.5 m/s in a time t = 47 s. The mass of boat B is 540 kg. Assuming a constant frictional force of 230 N acts on boat B, what is the magnitude of the tension in the rope that connects the boats during the time that boat A is accelerating?

A)340 N
B)1270 N
C)230 N
D)860 N
E)160 N
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67
Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 . The tension in the rope between the sleds is <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 .
Determine the ratio of the magnitudes of the two forces, <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0 . <strong>Two sleds are hooked together in tandem as shown in the figure. The front sled is twice as massive as the rear sled. The sleds are pulled along a frictionless surface by an applied force . The tension in the rope between the sleds is . Determine the ratio of the magnitudes of the two forces, . </strong> A)0.25 B)0.33 C)0.50 D)0.67 E)2.0

A)0.25
B)0.33
C)0.50
D)0.67
E)2.0
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68
A rock is suspended from a string; and it accelerates upward. Which statement is true concerning the tension in the string?

A)The tension points downward.
B)The tension is less than the weight of the rock.
C)The tension is equal to the weight of the rock.
D)The tension is greater than the weight of the rock.
E)The tension is independent of the magnitude of the rock's acceleration.
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69
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -If the string breaks, what is the magnitude of the acceleration of the block as it slides down the inclined plane?</strong> A)zero m/s<sup>2</sup> B)g C)g cos \theta D)g sin \theta E)g tan \theta

-If the string breaks, what is the magnitude of the acceleration of the block as it slides down the inclined plane?

A)zero m/s2
B)g
C)g cos θ\theta
D)g sin θ\theta
E)g tan θ\theta
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70
In a tug-of-war, each man on a 5-man team pulls with an average force of 500 N. What is the tension in the center of the rope?

A)zero newtons
B)100 N
C)500 N
D)2500 N
E)5000 N
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71
A block of weight W is suspended by a string of fixed length. The ends of the string are held at various positions as shown in the figures below. In which case, if any, is the magnitude of the tension along the string the largest? <strong>A block of weight W is suspended by a string of fixed length. The ends of the string are held at various positions as shown in the figures below. In which case, if any, is the magnitude of the tension along the string the largest? </strong> A)case A B)case B C)case C D)case D E)The magnitude of the tension will be the same in all four cases, since the string must support the entire weight of the block.

A)case A
B)case B
C)case C
D)case D
E)The magnitude of the tension will be the same in all four cases, since the string must support the entire weight of the block.
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72
What is the tension in the horizontal cable?

A)87 N
B)150 N
C)170 N
D)260 N
E)300 N
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73
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -What is the magnitude of the tension in the string?</strong> A)zero newtons B)Mg C)Mg cos \theta D)Mg sin \theta E)Mg tan \theta

-What is the magnitude of the tension in the string?

A)zero newtons
B)Mg
C)Mg cos θ\theta
D)Mg sin θ\theta
E)Mg tan θ\theta
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74
A muscle builder holds the ends of a massless rope. At the center of the rope, a 7.9-kg ball is hung as shown. What is the tension in the rope if the angle θ\theta in the drawing is 6.0°? <strong>A muscle builder holds the ends of a massless rope. At the center of the rope, a 7.9-kg ball is hung as shown. What is the tension in the rope if the angle \theta in the drawing is 6.0°? </strong> A)960 N B)740 N C)370 N D)230 N E)150 N

A)960 N
B)740 N
C)370 N
D)230 N
E)150 N
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75
A rock is suspended from a string; and it accelerates downward. Which one of the following statements concerning the tension in the string is true?

A)The tension points downward.
B)The tension is less than the weight of the rock.
C)The tension is equal to the weight of the rock.
D)The tension is greater than the weight of the rock.
E)The tension is independent of the magnitude of the rock's acceleration.
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76
A small plane climbs with a constant velocity of 240 m/s at an angle of 24° with respect to the horizontal. Which statement is true concerning the magnitude of the net force on the plane?

A)It is equal to zero newtons.
B)It is equal to the weight of the plane.
C)It is equal to the magnitude of the force of air resistance.
D)It is less than the weight of the plane but greater than zero newtons.
E)It is equal to the component of the weight of the plane in the direction of motion.
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77
Under what condition(s) will an object be in equilibrium?

A)If the object is either at rest or moving with constant velocity, it is in equilibrium.
B)If the object is either moving with constant velocity or with constant acceleration, it is in equilibrium.
C)Only if the object is at rest can it be in equilibrium.
D)Only if the object is moving with constant velocity can it be in equilibrium.
E)Only if the object is moving with constant acceleration can it be in equilibrium.
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78
A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. <strong>A block of mass M is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall as shown in the drawing. -Assume the plane is not frictionless and the string breaks, what minimum value of the coefficient of static friction, \mu <sub>s</sub>, would prevent the block from sliding down the inclined plane?</strong> A)zero B)1 C)cos \theta D)sin \theta E)tan \theta

-Assume the plane is not frictionless and the string breaks, what minimum value of the coefficient of static friction, μ\mu s, would prevent the block from sliding down the inclined plane?

A)zero
B)1
C)cos θ\theta
D)sin θ\theta
E)tan θ\theta
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79
A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)

A) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)
B) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)
C) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)
D) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)
E) <strong>A block of mass M is hung by ropes as shown. The system is in equilibrium. The point O represents the knot, the junction of the three ropes. Which of the following statements is true concerning the magnitudes of the three forces in equilibrium? </strong> A) B) C) D) E)
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80
A 4-kg block is connected by means of a massless rope to a 2-kg block as shown in the figure. Complete the following statement: If the 4-kg block is to begin sliding, the coefficient of static friction between the 4-kg block and the surface must be <strong>A 4-kg block is connected by means of a massless rope to a 2-kg block as shown in the figure. Complete the following statement: If the 4-kg block is to begin sliding, the coefficient of static friction between the 4-kg block and the surface must be </strong> A)less than zero. B)greater than 2. C)greater than 1, but less than 2. D)greater than 0.5, but less than 1. E)less than 0.5, but greater than zero.

A)less than zero.
B)greater than 2.
C)greater than 1, but less than 2.
D)greater than 0.5, but less than 1.
E)less than 0.5, but greater than zero.
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