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Deck 23: Electric Forces

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Question
A particle (m = 50 g, q = 5.0 μC) is released from rest when it is 50 cm from a second particle (Q = −20 μC). Determine the magnitude of the initial acceleration of the 50-g particle.

A)54 m/s2
B)90 m/s2
C)72 m/s2
D)65 m/s2
E)36 m/s2
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Question
Identical point charges Q are placed at each of the four corners of a 3.0-m × 4.0-m rectangle. If Q = 40 μC, what is the magnitude of the electrostatic force on any one of the charges?

A)3.0 N
B)2.4 N
C)1.8 N
D)3.7 N
E)2.0 N
Question
A particle (charge = +40 μC) is located on the x axis at the point x = −20 cm, and a second particle (charge = −50 μC) is placed on the x axis at x = +30 cm. What is the magnitude of the total electrostatic force on a third particle (charge = −4.0 μC) placed at the origin (x = 0)?

A)41 N
B)16 N
C)56 N
D)35 N
E)72 N
Question
Three point charges are positioned on the x axis. If the charges and corresponding positions are +32 μC at x = 0, +20 μC at x = 40 cm, and −60 μC at x = 60 cm, what is the magnitude of the electrostatic force on the +32-μC charge?

A)84 N
B)12 N
C)36 N
D)50 N
E)48 N
Question
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 32 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 32 nC in the figure, what is the magnitude of the electric force on q? </strong> A)1.6 N B)1.3 N C)1.9 N D)2.2 N E)0.040 N <div style=padding-top: 35px>

A)1.6 N
B)1.3 N
C)1.9 N
D)2.2 N
E)0.040 N
Question
A point charge Q is placed on the x axis at x = −2.0 m. A second point charge, −Q, is placed at x = 1.0 m. If Q = 60 μC, what is the magnitude of the electrostatic force on a 40-μC charge placed at the origin?

A)16 N
B)27 N
C)32 N
D)11 N
E)3.0 N
Question
Three identical point charges Q are placed at the vertices of an equilateral triangle (length of each side = 2.0 m). If Q = 60 μC, what is the magnitude of the electrostatic force on any one of the charges?

A)25 N
B)19 N
C)14 N
D)22 N
E)16 N
Question
In the figure, if Q = 30 μC, q = 5.0 μC, and d = 30 cm, what is the magnitude of the electrostatic force on q? <strong>In the figure, if Q = 30 μC, q = 5.0 μC, and d = 30 cm, what is the magnitude of the electrostatic force on q? </strong> A)15 N B)23 N C)zero D)7.5 N E)38 N <div style=padding-top: 35px>

A)15 N
B)23 N
C)zero
D)7.5 N
E)38 N
Question
A charge of +80 μC is placed on the x axis at x = 0. A second charge of −50 μC is placed on the x axis at x = 50 cm. What is the magnitude of the electrostatic force on a third charge of 4.0 μC placed on the x axis at x = 30 cm?

A)13 N
B)77 N
C)39 N
D)25 N
E)45 N
Question
If Q = 25 μC, q = 10 μC, and L = 40 cm in the figure, what is the magnitude of the electrostatic force on q? <strong>If Q = 25 μC, q = 10 μC, and L = 40 cm in the figure, what is the magnitude of the electrostatic force on q? </strong> A)28 N B)22 N C)20 N D)14 N E)10 N <div style=padding-top: 35px>

A)28 N
B)22 N
C)20 N
D)14 N
E)10 N
Question
A point charge Q is placed on the x axis at the origin. An identical point charge is placed on the x axis at x = −1.0 m and another at x = +1.0 m. If Q = 40 μC, what is the magnitude of the electrostatic force on the charge at x = +1.0 m?

A)29 N
B)14 N
C)11 N
D)18 N
E)7.0 N
Question
If a = 3.0 mm, b = 4.0 mm, Q1 = −60 nC, Q2 = 80 nC, and q = 30 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = −60 nC, Q2 = 80 nC, and q = 30 nC in the figure, what is the magnitude of the electric force on q? </strong> A)1.4 N B)1.0 N C)1.7 N D)2.0 N E)0.50 N <div style=padding-top: 35px>

A)1.4 N
B)1.0 N
C)1.7 N
D)2.0 N
E)0.50 N
Question
A point charge (−5.0 μC) is placed on the x axis at x = 4.0 cm, and a second charge (+5.0 μC) is placed on the x axis at x = −4.0 cm. What is the magnitude of the electric force on a third charge (+2.5 μC) placed on the y axis at y = 3.0 cm?

A)90 N
B)45 N
C)54 N
D)72 N
E)36 N
Question
If Q = 20 μC and L = 60 cm, what is the magnitude of the electrostatic force on any one of the charges shown? <strong>If Q = 20 μC and L = 60 cm, what is the magnitude of the electrostatic force on any one of the charges shown? </strong> A)25 N B)19 N C)15 N D)9.1 N E)14 N <div style=padding-top: 35px>

A)25 N
B)19 N
C)15 N
D)9.1 N
E)14 N
Question
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 24 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 24 nC in the figure, what is the magnitude of the electric force on q? </strong> A)2.7 N B)1.9 N C)2.3 N D)1.5 N E)0.52 N <div style=padding-top: 35px>

A)2.7 N
B)1.9 N
C)2.3 N
D)1.5 N
E)0.52 N
Question
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = −80 nC, and q = 36 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = −80 nC, and q = 36 nC in the figure, what is the magnitude of the electric force on q? </strong> A)5.0 N B)4.4 N C)3.8 N D)5.7 N E)0.60 N <div style=padding-top: 35px>

A)5.0 N
B)4.4 N
C)3.8 N
D)5.7 N
E)0.60 N
Question
Three point charges, two positive and one negative, each having a magnitude of 20 μC are placed at the vertices of an equilateral triangle (30 cm on a side). What is the magnitude of the electrostatic force on the negative charge?

A)80 N
B)40 N
C)69 N
D)57 N
E)75 N
Question
A point charge Q is placed on the x axis at x = 2.0 m. A second point charge, −Q, is placed at x = 3.0 m. If Q = 40 μC, what is the magnitude of the electrostatic force on a 30-μC charge placed at the origin?

A)7.2 N
B)3.9 N
C)1.5 N
D)14 N
E)8.1 N
Question
Three point charges, two positive and one negative, each having a magnitude of 20 μC are placed at the vertices of an equilateral triangle (30 cm on a side). What is the magnitude of the electrostatic force on one of the positive charges?

A)69 N
B)40 N
C)80 N
D)57 N
E)20 N
Question
Each of two small non-conducting spheres is charged positively, the combined charge being 40 μC. When the two spheres are 50 cm apart, each sphere is repelled from the other by a force of magnitude 2.0 N. Determine the magnitude of the smaller of the two charges.

A)1.4 μC
B)1.1 μC
C)2.0 μC
D)3.3 μC
E)17 μC
Question
An alpha particle (charge = +2e) is sent at high speed toward a gold nucleus (charge +79e). What is the electrical force acting on the alpha particle when it is at a distance of 2 × 10−14 m away from the gold nucleus? (e = 1.6 × 10−19 C)
Question
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on the knot at the center is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on the knot at the center is ​ ​</strong> A)0. B)3.75 × 10<sup>−2</sup>. C)5.63 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>. <div style=padding-top: 35px>

A)0.
B)3.75 × 10−2.
C)5.63 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
Question
A charge of 50-μC is placed on the y axis at y = 3.0 cm and a 77-μC charge is placed on the x axis at x = 4.0 cm. If both charges are held fixed, what is the magnitude of the initial acceleration of an electron released from rest at the origin?

A)1.2 × 1020 m/s2
B)1.5 × 1020 m/s2
C)1.0 × 1020 m/s2
D)1.8 × 1020 m/s2
E)2.0 × 1020 m/s2
Question
Two identical pith balls supported by insulating threads hang side by side and close together, as shown below. <strong>Two identical pith balls supported by insulating threads hang side by side and close together, as shown below. One is positively charged; the other is neutral. We can conclude that</strong> A)all field lines leaving the positively charged pith ball end on the neutral pith ball. B)some of the field lines leaving the positively charged pith ball end on the neutral pith ball. C)none of the field lines leaving the positively charged pith ball end on the neutral pith ball. D)positive charge is transferred along the field lines until both balls have equal charges. E)positive charge is transferred along the field lines until both balls hang along vertical lines. <div style=padding-top: 35px> One is positively charged; the other is neutral. We can conclude that

A)all field lines leaving the positively charged pith ball end on the neutral pith ball.
B)some of the field lines leaving the positively charged pith ball end on the neutral pith ball.
C)none of the field lines leaving the positively charged pith ball end on the neutral pith ball.
D)positive charge is transferred along the field lines until both balls have equal charges.
E)positive charge is transferred along the field lines until both balls hang along vertical lines.
Question
Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> is the force Q2 exerts on Q1 and <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> is the force Q1 exerts on Q2.

A) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
B) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
C) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
D) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
E) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
Enrico says that positive charge is created when you rub a glass rod with silk, and that negative charge is simply the absence of positive charge. Rosetta says that negative charge is created and that positive charge is the absence of positive charge. (She has heard that Ben Franklin should have reversed the signs he associated with the charges.) Which one, if either, is correct?

A)Enrico, because there really is only one kind of charge.
B)Rosetta, because there really is only one kind of charge.
C)Neither: although no charge is present originally, both types of charge are created through friction.
D)Both: only one type of charge is created by friction at any one time.
E)Neither: both negative and positive charge are present simultaneously in all solid materials on Earth and the process described involves a transfer of charge, not the creation of charge.
Question
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on any one of the charges is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on any one of the charges is ​ ​</strong> A)1.88 × 10<sup>−2</sup>. B)3.25 × 10<sup>−2</sup>. C)3.73 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>. <div style=padding-top: 35px>

A)1.88 × 10−2.
B)3.25 × 10−2.
C)3.73 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
Question
Three pith balls supported by insulating threads hang from a support. We know that ball X is positively charged. When ball X is brought near balls Y and Z without touching them, it attracts Y and repels Z. Since pith is an insulating material, we can conclude that

A)Y has a negative charge.
B)Z has a negative charge.
C)Y has a positive charge.
D)Z has a positive charge.
E)Z is neutral (has no net charge).
Question
Imagine for a minute that the Moon is held in its orbit about the Earth by electrical forces rather than by gravitation. What electrical charges −Q on the Earth and +Q on the Moon are necessary to hold the Moon in a circular orbit with a period of 27.3 days? The Earth-Moon distance is 384,000 km and the mass of the Moon is 7.35 × 1022 kg.
Question
Rubber rods charged by rubbing with cat fur repel each other. Glass rods charged by rubbing with silk repel each other. A rubber rod and a glass rod charged respectively as above attract each other. A possible explanation is that

A)any two rubber rods charged this way have opposite charges on them.
B)any two glass rods charged this way have opposite charges on them.
C)a rubber rod and a glass rod charged this way have opposite charges on them.
D)all rubber rods always have an excess of positive charge on them.
E)all glass rods always have an excess of negative charge on them.
Question
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the tension in any one of the strings is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the tension in any one of the strings is ​ ​</strong> A)1.88 × 10<sup>−2</sup>. B)3.25 × 10<sup>−2</sup>. C)3.75 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>. <div style=padding-top: 35px>

A)1.88 × 10−2.
B)3.25 × 10−2.
C)3.75 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
Question
Three pith balls supported by insulating threads hang from a support. We know that ball X is positively charged. When ball X is brought near balls Y and Z without touching them, it attracts Y and repels Z. Since pith is an insulating material, we can conclude that

A)Y has a negative charge.
B)Z has a negative charge.
C)Y has a positive charge.
D)Z is neutral (has no net charge).
E)Y is negatively charged or neutral (has no net charge).
Question
The symbol <strong>The symbol appears in Coulomb's law because we use independently defined units for</strong> A)force and distance. B)charge and distance. C)distance and force. D)force, distance, and electric charge. E)charge. <div style=padding-top: 35px> appears in Coulomb's law because we use independently defined units for

A)force and distance.
B)charge and distance.
C)distance and force.
D)force, distance, and electric charge.
E)charge.
Question
Two tiny metal spheres are fixed to the ends of a non-conducting string of length <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> . Tilden says that the tension in the string has magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> . Which one, if either, is correct?

A)Randall, because both charges exert forces on the string, but the tension is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> .
B)Tilden, because both charges exert forces on the string, but the net force is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> .
C)Both are correct, because both charges exert forces on the string.
D)Neither is correct, because both the tension and the force have magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> .
E)Neither is correct, because the tension is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. <div style=padding-top: 35px> , but the net force is 0.
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Deck 23: Electric Forces
1
A particle (m = 50 g, q = 5.0 μC) is released from rest when it is 50 cm from a second particle (Q = −20 μC). Determine the magnitude of the initial acceleration of the 50-g particle.

A)54 m/s2
B)90 m/s2
C)72 m/s2
D)65 m/s2
E)36 m/s2
72 m/s2
2
Identical point charges Q are placed at each of the four corners of a 3.0-m × 4.0-m rectangle. If Q = 40 μC, what is the magnitude of the electrostatic force on any one of the charges?

A)3.0 N
B)2.4 N
C)1.8 N
D)3.7 N
E)2.0 N
2.4 N
3
A particle (charge = +40 μC) is located on the x axis at the point x = −20 cm, and a second particle (charge = −50 μC) is placed on the x axis at x = +30 cm. What is the magnitude of the total electrostatic force on a third particle (charge = −4.0 μC) placed at the origin (x = 0)?

A)41 N
B)16 N
C)56 N
D)35 N
E)72 N
56 N
4
Three point charges are positioned on the x axis. If the charges and corresponding positions are +32 μC at x = 0, +20 μC at x = 40 cm, and −60 μC at x = 60 cm, what is the magnitude of the electrostatic force on the +32-μC charge?

A)84 N
B)12 N
C)36 N
D)50 N
E)48 N
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5
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 32 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 32 nC in the figure, what is the magnitude of the electric force on q? </strong> A)1.6 N B)1.3 N C)1.9 N D)2.2 N E)0.040 N

A)1.6 N
B)1.3 N
C)1.9 N
D)2.2 N
E)0.040 N
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6
A point charge Q is placed on the x axis at x = −2.0 m. A second point charge, −Q, is placed at x = 1.0 m. If Q = 60 μC, what is the magnitude of the electrostatic force on a 40-μC charge placed at the origin?

A)16 N
B)27 N
C)32 N
D)11 N
E)3.0 N
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7
Three identical point charges Q are placed at the vertices of an equilateral triangle (length of each side = 2.0 m). If Q = 60 μC, what is the magnitude of the electrostatic force on any one of the charges?

A)25 N
B)19 N
C)14 N
D)22 N
E)16 N
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8
In the figure, if Q = 30 μC, q = 5.0 μC, and d = 30 cm, what is the magnitude of the electrostatic force on q? <strong>In the figure, if Q = 30 μC, q = 5.0 μC, and d = 30 cm, what is the magnitude of the electrostatic force on q? </strong> A)15 N B)23 N C)zero D)7.5 N E)38 N

A)15 N
B)23 N
C)zero
D)7.5 N
E)38 N
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9
A charge of +80 μC is placed on the x axis at x = 0. A second charge of −50 μC is placed on the x axis at x = 50 cm. What is the magnitude of the electrostatic force on a third charge of 4.0 μC placed on the x axis at x = 30 cm?

A)13 N
B)77 N
C)39 N
D)25 N
E)45 N
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10
If Q = 25 μC, q = 10 μC, and L = 40 cm in the figure, what is the magnitude of the electrostatic force on q? <strong>If Q = 25 μC, q = 10 μC, and L = 40 cm in the figure, what is the magnitude of the electrostatic force on q? </strong> A)28 N B)22 N C)20 N D)14 N E)10 N

A)28 N
B)22 N
C)20 N
D)14 N
E)10 N
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11
A point charge Q is placed on the x axis at the origin. An identical point charge is placed on the x axis at x = −1.0 m and another at x = +1.0 m. If Q = 40 μC, what is the magnitude of the electrostatic force on the charge at x = +1.0 m?

A)29 N
B)14 N
C)11 N
D)18 N
E)7.0 N
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12
If a = 3.0 mm, b = 4.0 mm, Q1 = −60 nC, Q2 = 80 nC, and q = 30 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = −60 nC, Q2 = 80 nC, and q = 30 nC in the figure, what is the magnitude of the electric force on q? </strong> A)1.4 N B)1.0 N C)1.7 N D)2.0 N E)0.50 N

A)1.4 N
B)1.0 N
C)1.7 N
D)2.0 N
E)0.50 N
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13
A point charge (−5.0 μC) is placed on the x axis at x = 4.0 cm, and a second charge (+5.0 μC) is placed on the x axis at x = −4.0 cm. What is the magnitude of the electric force on a third charge (+2.5 μC) placed on the y axis at y = 3.0 cm?

A)90 N
B)45 N
C)54 N
D)72 N
E)36 N
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14
If Q = 20 μC and L = 60 cm, what is the magnitude of the electrostatic force on any one of the charges shown? <strong>If Q = 20 μC and L = 60 cm, what is the magnitude of the electrostatic force on any one of the charges shown? </strong> A)25 N B)19 N C)15 N D)9.1 N E)14 N

A)25 N
B)19 N
C)15 N
D)9.1 N
E)14 N
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15
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 24 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = 80 nC, and q = 24 nC in the figure, what is the magnitude of the electric force on q? </strong> A)2.7 N B)1.9 N C)2.3 N D)1.5 N E)0.52 N

A)2.7 N
B)1.9 N
C)2.3 N
D)1.5 N
E)0.52 N
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16
If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = −80 nC, and q = 36 nC in the figure, what is the magnitude of the electric force on q? <strong>If a = 3.0 mm, b = 4.0 mm, Q1 = 60 nC, Q2 = −80 nC, and q = 36 nC in the figure, what is the magnitude of the electric force on q? </strong> A)5.0 N B)4.4 N C)3.8 N D)5.7 N E)0.60 N

A)5.0 N
B)4.4 N
C)3.8 N
D)5.7 N
E)0.60 N
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17
Three point charges, two positive and one negative, each having a magnitude of 20 μC are placed at the vertices of an equilateral triangle (30 cm on a side). What is the magnitude of the electrostatic force on the negative charge?

A)80 N
B)40 N
C)69 N
D)57 N
E)75 N
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18
A point charge Q is placed on the x axis at x = 2.0 m. A second point charge, −Q, is placed at x = 3.0 m. If Q = 40 μC, what is the magnitude of the electrostatic force on a 30-μC charge placed at the origin?

A)7.2 N
B)3.9 N
C)1.5 N
D)14 N
E)8.1 N
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19
Three point charges, two positive and one negative, each having a magnitude of 20 μC are placed at the vertices of an equilateral triangle (30 cm on a side). What is the magnitude of the electrostatic force on one of the positive charges?

A)69 N
B)40 N
C)80 N
D)57 N
E)20 N
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20
Each of two small non-conducting spheres is charged positively, the combined charge being 40 μC. When the two spheres are 50 cm apart, each sphere is repelled from the other by a force of magnitude 2.0 N. Determine the magnitude of the smaller of the two charges.

A)1.4 μC
B)1.1 μC
C)2.0 μC
D)3.3 μC
E)17 μC
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21
An alpha particle (charge = +2e) is sent at high speed toward a gold nucleus (charge +79e). What is the electrical force acting on the alpha particle when it is at a distance of 2 × 10−14 m away from the gold nucleus? (e = 1.6 × 10−19 C)
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22
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on the knot at the center is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on the knot at the center is ​ ​</strong> A)0. B)3.75 × 10<sup>−2</sup>. C)5.63 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>.

A)0.
B)3.75 × 10−2.
C)5.63 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
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23
A charge of 50-μC is placed on the y axis at y = 3.0 cm and a 77-μC charge is placed on the x axis at x = 4.0 cm. If both charges are held fixed, what is the magnitude of the initial acceleration of an electron released from rest at the origin?

A)1.2 × 1020 m/s2
B)1.5 × 1020 m/s2
C)1.0 × 1020 m/s2
D)1.8 × 1020 m/s2
E)2.0 × 1020 m/s2
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24
Two identical pith balls supported by insulating threads hang side by side and close together, as shown below. <strong>Two identical pith balls supported by insulating threads hang side by side and close together, as shown below. One is positively charged; the other is neutral. We can conclude that</strong> A)all field lines leaving the positively charged pith ball end on the neutral pith ball. B)some of the field lines leaving the positively charged pith ball end on the neutral pith ball. C)none of the field lines leaving the positively charged pith ball end on the neutral pith ball. D)positive charge is transferred along the field lines until both balls have equal charges. E)positive charge is transferred along the field lines until both balls hang along vertical lines. One is positively charged; the other is neutral. We can conclude that

A)all field lines leaving the positively charged pith ball end on the neutral pith ball.
B)some of the field lines leaving the positively charged pith ball end on the neutral pith ball.
C)none of the field lines leaving the positively charged pith ball end on the neutral pith ball.
D)positive charge is transferred along the field lines until both balls have equal charges.
E)positive charge is transferred along the field lines until both balls hang along vertical lines.
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25
Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . is the force Q2 exerts on Q1 and <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . is the force Q1 exerts on Q2.

A) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . .
B) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . .
C) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . .
D) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . .
E) <strong>Two charged particles, Q1 and Q2, are a distance r apart with Q2 = 5Q1. Compare the forces they exert on one another when is the force Q2 exerts on Q1 and is the force Q1 exerts on Q2.</strong> A) . B) . C) . D) . E) . .
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26
Enrico says that positive charge is created when you rub a glass rod with silk, and that negative charge is simply the absence of positive charge. Rosetta says that negative charge is created and that positive charge is the absence of positive charge. (She has heard that Ben Franklin should have reversed the signs he associated with the charges.) Which one, if either, is correct?

A)Enrico, because there really is only one kind of charge.
B)Rosetta, because there really is only one kind of charge.
C)Neither: although no charge is present originally, both types of charge are created through friction.
D)Both: only one type of charge is created by friction at any one time.
E)Neither: both negative and positive charge are present simultaneously in all solid materials on Earth and the process described involves a transfer of charge, not the creation of charge.
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27
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on any one of the charges is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the force on any one of the charges is ​ ​</strong> A)1.88 × 10<sup>−2</sup>. B)3.25 × 10<sup>−2</sup>. C)3.73 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>.

A)1.88 × 10−2.
B)3.25 × 10−2.
C)3.73 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
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28
Three pith balls supported by insulating threads hang from a support. We know that ball X is positively charged. When ball X is brought near balls Y and Z without touching them, it attracts Y and repels Z. Since pith is an insulating material, we can conclude that

A)Y has a negative charge.
B)Z has a negative charge.
C)Y has a positive charge.
D)Z has a positive charge.
E)Z is neutral (has no net charge).
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29
Imagine for a minute that the Moon is held in its orbit about the Earth by electrical forces rather than by gravitation. What electrical charges −Q on the Earth and +Q on the Moon are necessary to hold the Moon in a circular orbit with a period of 27.3 days? The Earth-Moon distance is 384,000 km and the mass of the Moon is 7.35 × 1022 kg.
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30
Rubber rods charged by rubbing with cat fur repel each other. Glass rods charged by rubbing with silk repel each other. A rubber rod and a glass rod charged respectively as above attract each other. A possible explanation is that

A)any two rubber rods charged this way have opposite charges on them.
B)any two glass rods charged this way have opposite charges on them.
C)a rubber rod and a glass rod charged this way have opposite charges on them.
D)all rubber rods always have an excess of positive charge on them.
E)all glass rods always have an excess of negative charge on them.
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31
Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the tension in any one of the strings is ​ <strong>Three 2.50-μC charges are placed on tiny conducting spheres at the ends of 1.00 m-long strings that are connected at 120° angles as shown below. The magnitude, in N, of the tension in any one of the strings is ​ ​</strong> A)1.88 × 10<sup>−2</sup>. B)3.25 × 10<sup>−2</sup>. C)3.75 × 10<sup>−2</sup>. D)6.50 × 10<sup>−2</sup>. E)7.50 × 10<sup>−2</sup>.

A)1.88 × 10−2.
B)3.25 × 10−2.
C)3.75 × 10−2.
D)6.50 × 10−2.
E)7.50 × 10−2.
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32
Three pith balls supported by insulating threads hang from a support. We know that ball X is positively charged. When ball X is brought near balls Y and Z without touching them, it attracts Y and repels Z. Since pith is an insulating material, we can conclude that

A)Y has a negative charge.
B)Z has a negative charge.
C)Y has a positive charge.
D)Z is neutral (has no net charge).
E)Y is negatively charged or neutral (has no net charge).
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33
The symbol <strong>The symbol appears in Coulomb's law because we use independently defined units for</strong> A)force and distance. B)charge and distance. C)distance and force. D)force, distance, and electric charge. E)charge. appears in Coulomb's law because we use independently defined units for

A)force and distance.
B)charge and distance.
C)distance and force.
D)force, distance, and electric charge.
E)charge.
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34
Two tiny metal spheres are fixed to the ends of a non-conducting string of length <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. . Tilden says that the tension in the string has magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. . Which one, if either, is correct?

A)Randall, because both charges exert forces on the string, but the tension is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. .
B)Tilden, because both charges exert forces on the string, but the net force is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. .
C)Both are correct, because both charges exert forces on the string.
D)Neither is correct, because both the tension and the force have magnitude <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. .
E)Neither is correct, because the tension is <strong>Two tiny metal spheres are fixed to the ends of a non-conducting string of length . Equal charges, +q, are placed on the metal spheres. Randall says that the force on the string has magnitude . Tilden says that the tension in the string has magnitude . Which one, if either, is correct?</strong> A)Randall, because both charges exert forces on the string, but the tension is . B)Tilden, because both charges exert forces on the string, but the net force is . C)Both are correct, because both charges exert forces on the string. D)Neither is correct, because both the tension and the force have magnitude . E)Neither is correct, because the tension is , but the net force is 0. , but the net force is 0.
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