Question 1

Complete the following statement: The electron volt is a unit of&#10;A)energy.&#10;B)electric field strength.&#10;C)electric force.&#10;D)electric potential difference.&#10;E)electric power.

Accepted Answer

The electron volt (eV) is a unit of energy in physics, specifically the amount of energy gained by an electron when it moves through an electric potential difference of one volt.

Question 2

&#10;Two point charges are held at the corners of a rectangle as shown in the figure.The lengths of sides of the rectangle are 0.050 m and 0.150 m.Assume that the electric potential is defined to be zero at infinity.  &#10;&#10;-What is the electric potential energy of a +3.0 $\mu$C charge placed at corner A?&#10;A)0.10 J&#10;B)0.18 J&#10;C)2.3 J&#10;D)3.6 J&#10;E)zero joules

Accepted Answer

The electric potential energy of a charge q at a distance r from a point charge Q is given by U=kQq/r, where k=9x10^9 Nm^2/C^2 is the Coulomb constant.

The potential energy of the +3.0 μC charge at corner A is the sum of the potential energies due to each point charge:

U = k(2×10^-6 C)(3×10^-6 C)/0.050 m + k(2×10^-6 C)(3×10^-6 C)/0.150 m 
U = 0.12 J + 0.06 J = 0.18 J

Therefore, the answer is B, 0.18 J.

Question 3

A +1.0 $\mu$C point charge is moved from point A to B in the uniform electric field as shown.Which one of the following statements is necessarily true concerning the potential energy of the point charge? A)The potential energy increases by 6.0 × 10^-⁶J. B)The potential energy decreases by 6.0 × 10^-⁶J. C)The potential energy decreases by 9.0 × 10^-⁶J. D)The potential energy increases by 10.8 × 10^-⁶J. E)The potential energy decreases by 10.8 × 10^-⁶J.

Accepted Answer

The potential energy decreases by 9.0 × 10^-⁶J.

Question 4

Two positive point charges are separated by a distance R.If the distance between the charges is reduced to R/2, what happens to the total electric potential energy of the system?&#10;A)The total electric potential energy is doubled.&#10;B)The total electric potential energy remains the same.&#10;C)The total electric potential energy increases by a factor of 4.&#10;D)The total electric potential energy is reduced to one-half of its original value.&#10;E)The total electric potential energy is reduced to one-fourth of its original value.

Accepted Answer

The answer of Two positive point charges are separated by...

Question 5

19-1
Two point charges are held at the corners of a rectangle as shown in the figure.The lengths of sides of the rectangle are 0.050 m and 0.150 m.Assume that the electric potential is defined to be zero at infinity.
What is the magnitude of the electric field at P, the center of the square?

A)kQ/a²
B)2kQ/a²
C)4kQ/a²
D)kQ/4a²
E)zero V/m

Accepted Answer

The answer of 19-1&#10;Two point charges are held at the...

Question 6

&#10;P and Q are points within a uniform electric field that are separated by a distance of 0.2 m as shown.The potential difference between P and Q is 75 V.  &#10;&#10;-How much work is required to move a +150 $\mu$C point charge from P to Q?&#10;A)0.023 J&#10;B)0.056 J&#10;C)75 J&#10;D)140 J&#10;E)2800 J

Accepted Answer

The electric potential difference between P and Q is given by V = Ed where E is the electric field and d is the distance between P and Q. Rearranging this equation gives E = V/d.
The electric field strength is then E = 75 V/0.2 m = 375 N/C.
To move a point charge from P to Q, work must be done against the electric field. The work done is given by W = qEd, where q is the charge being moved. Substituting in the values gives W = (150 x 10^-6 C)(375 N/C)(0.2 m) = 0.056 J. Therefore, the correct answer is B.

Question 7

Three point charges -Q, -Q, and +3Q are arranged along a line as shown in the sketch.   What is the electric potential at the point P?&#10;A)+kQ/R&#10;B)-2kQ/R&#10;C)-1.6kQ/R&#10;D)+1.6kQ/R&#10;E)+4.4kQ/R

Accepted Answer

The answer of Three point charges -Q, -Q, and +3Q...

Question 8

The electric potential at a certain point is space is 12 V.What is the electric potential energy of a -3.0 $\mu$C charge placed at that point?&#10;A)+4 $\mu$J&#10;B)-4 $\mu$J&#10;C)+36 $\mu$J&#10;D)-36 F$\mu$J&#10;E)zero &#181;J

Accepted Answer

The electric potential energy of a point charge can be calculated using the following formula:

Electric potential energy = Q * V

Where Q is the charge of the particle and V is the electric potential at the point. Plugging in the values given in the problem, we get:

Electric potential energy = (-3.0 F) * (12 V) = -36 µJ

The negative sign indicates that the charge is a negative charge and is at a lower potential energy than a positive charge at the same point. The correct answer is therefore (D).

Question 9

19-1&#10;Two point charges are held at the corners of a rectangle as shown in the figure.The lengths of sides of the rectangle are 0.050 m and 0.150 m.Assume that the electric potential is defined to be zero at infinity.  &#10;What is the electric potential at P, the center of the square?&#10;A)kQ/a&#10;B)2kQ/a&#10;C)4kQ/a&#10;D)kQ/4a&#10;E)zero volts

Accepted Answer

The answer of 19-1&#10;Two point charges are held at the...

Question 10

Which one of the following statements best explains why it is possible to define an electrostatic potential in a region of space that contains an electrostatic field?&#10;A)Work must be done to bring two positive charges closer together.&#10;B)Like charges repel one another and unlike charges attract one another.&#10;C)A positive charge will gain kinetic energy as it approaches a negative charge.&#10;D)The work required to bring two charges together is independent of the path taken.&#10;E)A negative charge will gain kinetic energy as it moves away from another negative charge.

Accepted Answer

The answer of Which one of the following statements best...

Question 11

19-1
Two point charges are held at the corners of a rectangle as shown in the figure.The lengths of sides of the rectangle are 0.050 m and 0.150 m.Assume that the electric potential is defined to be zero at infinity.
Determine the electric potential at corner A.

A)+6.0 × 10⁴ V
B)-2.4 × 10⁵ V
C)+4.6 × 10⁵ V
D)-7.8 × 10⁵ V
E)zero volts

Accepted Answer

The answer of 19-1&#10;Two point charges are held at the...

Question 12

If the work required to move a +0.25 C charge from point A to point B is +175 J, what is the potential difference between the two points?&#10;A)zero volts&#10;B)44 V&#10;C)88 V&#10;D)350 V&#10;E)700 V

Accepted Answer

The answer of If the work required to move a...

Question 13

19-3&#10;P and Q are points within a uniform electric field that are separated by a distance of 0.2 m as shown.The potential difference between P and Q is 75 V.  &#10;Determine the magnitude of this electric field.&#10;A)15 V/m&#10;B)75 V/m&#10;C)375 V/m&#10;D)750 V/m&#10;E)1100 V/m

Accepted Answer

The answer of 19-3&#10;P and Q are points within a...

Question 14

Two point charges are located at two of the vertices of a right triangle, as shown in the figure.If a third charge -q is brought from infinity and placed at the third vertex, what will its electric potential energy be? Use the following values: a = 0.35 m; b = 0.65 m, and q = 3.0 × 10^-⁶ C.

A)-1.7 J
B)-0.14 J
C)-0.028 J
D)+0.85 J
E)+1.7 J

Accepted Answer

The answer of Two point charges are located at two...

Question 15

A proton moves in a constant electric field from point A to point B.The magnitude of the electric field is 6.4 × 10⁴ N/C; and it is directed as shown in the drawing, the direction opposite to the motion of the proton.If the distance from point A to point B is 0.50 m, what is the change in the proton's electric potential energy, EPE_A - EPE_B?

A)-2.4 × 10^-¹⁵J
B)-3.2 × 10^-¹⁵J
C)+1.2 × 10^-¹⁵J
D)-5.1 × 10^-¹⁵J
E)-1.8 × 10^-¹⁵J

Accepted Answer

The answer of A proton moves in a constant electric...

Question 16

19-1
Two point charges are held at the corners of a rectangle as shown in the figure.The lengths of sides of the rectangle are 0.050 m and 0.150 m.Assume that the electric potential is defined to be zero at infinity.
What is the potential difference, V_B - V_A, between corners A and B?

A)-8.4 × 10⁵ V
B)-7.8 × 10⁵ V
C)-7.2 × 10⁵ V
D)-6.0 × 10⁵ V
E)zero volts

Accepted Answer

The answer of 19-1&#10;Two point charges are held at the...

Question 17

Which one of the following statements is true concerning the work done by an external force in moving an electron at constant speed between two points in an electrostatic field?&#10;A)The work done is always zero joules.&#10;B)The work done is always positive.&#10;C)The work done only depends on the speed of the electron.&#10;D)The work done depends on the total distance covered.&#10;E)The work done depends only on the displacement of the electron.

Accepted Answer

The answer of Which one of the following statements is...

Question 18

A completely ionized beryllium atom (net charge = +4e) is accelerated through a potential difference of 6.0 V.What is the increase in kinetic energy of the atom?&#10;A)zero eV&#10;B)0.67 eV&#10;C)4.0 eV&#10;D)6.0 eV&#10;E)24 eV

Accepted Answer

The answer of A completely ionized beryllium atom (net charge...

Question 19

Two point charges are arranged along the x axis as shown in the figure.At which of the following values of x is the electric potential equal to zero? Note: At infinity, the electric potential is zero.  &#10;A)+0.05 m&#10;B)+0.29 m&#10;C)+0.40 m&#10;D)+0.54 m&#10;E)+0.71 m

Accepted Answer

The answer of Two point charges are arranged along the...

Question 20

A charge q = -6.0 µC is moved 0.25 m horizontally to point P in a region where an electric field is 250 V/m directed vertically, as shown.What is the change in the electric potential energy of the charge?

A)-2.4 × 10^-⁵ J
B)-1.5 × 10^-⁴ J
C)zero joules
D)+1.5 × 10^-⁴ J
E)+2.4 × 10^-⁵ J

Accepted Answer

The answer of A charge q = -6.0 &#181;C is...

Question 21

19-5
Two charges of opposite sign and equal magnitude Q = 0.82 C are held 2.0 m apart as shown in the figure.
Determine the electric potential at the point P.

A)1.1 × 10⁹ V
B)2.2 × 10⁹ V
C)4.5 × 10⁹ V
D)9.0 × 10⁹ V
E)zero volts

Accepted Answer

The answer of 19-5&#10;Two charges of opposite sign and equal...

Question 22

Which one of the following statements concerning electrostatic situations is false?&#10;A)E is zero everywhere inside a conductor.&#10;B)Equipotential surfaces are always perpendicular to E.&#10;C)Zero work is needed to move a charge along an equipotential surface.&#10;D)If V is constant throughout a region of space, then E must be zero in that region.&#10;E)No force component acts along the path of a charge as it is moved along an equipotential surface.

Accepted Answer

The answer of Which one of the following statements concerning...

Question 23

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
A positive point charge is placed at F.Complete the following statement: When it is released,

A)no force will be exerted on it.
B)a force will cause it to move toward E.
C)a force will cause it to move toward G.
D)a force will cause it to move away from E.
E)it would subsequently lose kinetic energy.

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 24

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 25

Which one of the following statements best describes the equipotential surfaces surrounding a point charge?&#10;A)The equipotential surfaces are planes extending radially outward from the charge.&#10;B)The equipotential surfaces are curved planes surrounding the charge, but only one passes through the charge.&#10;C)The equipotential surfaces are concentric cubes with the charge at the center.&#10;D)The equipotential surfaces are concentric spheres with the charge at the center.&#10;E)The equipotential surfaces are concentric cylinders with the charge on the axis at the center.

Accepted Answer

The answer of Which one of the following statements best...

Question 26

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 27

19-7
The sketch shows cross sections of equipotential surfaces between two charged conductors shown in solid black.Points on the equipotential surfaces near the conductors are labeled A, B, C, ..., H.
How much work is required to move a +6.0 µC point charge from B to F to D to A?

A)+1.2 × 10^-³ J
B)-1.2 × 10^-³ J
C)+3.6 × 10^-³ J
D)-3.6 × 10^-³ J
E)zero joules

Accepted Answer

The answer of 19-7&#10;The sketch shows cross sections of equipotential...

Question 28

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 29

19-5
Two charges of opposite sign and equal magnitude Q = 0.82 C are held 2.0 m apart as shown in the figure.
Determine the magnitude of the electric field at the point P.

A)2.8 × 10⁸ V/m
B)4.4 × 10⁸ V/m
C)5.6 × 10⁸ V/m
D)9.2 × 10⁸ V/m
E)zero V/m

Accepted Answer

The answer of 19-5&#10;Two charges of opposite sign and equal...

Question 30

19-7&#10;The sketch shows cross sections of equipotential surfaces between two charged conductors shown in solid black.Points on the equipotential surfaces near the conductors are labeled A, B, C, ..., H.  &#10;What is the direction of the electric field at point E?&#10;A)toward G&#10;B)toward B&#10;C)toward H&#10;D)toward C&#10;E)toward F

Accepted Answer

The answer of 19-7&#10;The sketch shows cross sections of equipotential...

Question 31

19-7&#10;The sketch shows cross sections of equipotential surfaces between two charged conductors shown in solid black.Points on the equipotential surfaces near the conductors are labeled A, B, C, ..., H.  &#10;What is the magnitude of the potential difference between points A and H?&#10;A)100 V&#10;B)200 V&#10;C)400 V&#10;D)600 V&#10;E)700 V

Accepted Answer

The answer of 19-7&#10;The sketch shows cross sections of equipotential...

Question 32

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 33

19-4
Two point charges are separated by 1.00 × 10^-² m.One charge is -2.8 × 10^-⁸ C; and the other is +2.8 × 10^-⁸ C.The points A and B are located 2.5 × 10^-³ m from the lower and upper point charges as shown.
If a proton, which has a charge of +1.60 × 10^-¹⁹ C, is moved from rest at A to rest at B, what is change in electrical potential energy of the proton?

A)+2.1 × 10^-¹⁴ J
B)+3.2 × 10^-¹⁴ J
C)- 4.3 × 10^-¹⁵ J
D)- 5.4 × 10^-¹⁵ J
E)zero joules

Accepted Answer

The answer of 19-4&#10;Two point charges are separated by 1.00...

Question 34

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 35

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 36

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
What is the direction of the electric field at B?

A)toward A
B)toward D
C)toward C
D)into the page
E)up and out of the page

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 37

The sketch below shows cross sections of equipotential surfaces between two charged conductors that are shown in solid grey.Various points on the equipotential surfaces near the conductors are labeled A, B, C, ..., I.
A positive point charge is placed at F.Complete the following statement: When it is released,

A)no force will be exerted on it.
B)a force will cause it to move toward E.
C)a force will cause it to move toward G.
D)a force will cause it to move away from E.
E)it would subsequently lose kinetic energy.

Accepted Answer

The answer of The sketch below shows cross sections of...

Question 38

A charge is located at the center of sphere A (radius R_A = 0.0010 m), which is in the center of sphere B (radius R_B = 0.0012 m).Spheres A and B are both equipotential surfaces.What is the ratio V_A/V_B of the potentials of these surfaces?

A)0.42
B)0.83
C)1.2
D)1.4
E)2.4

Accepted Answer

The answer of A charge is located at the center...

Question 39

19-4
Two point charges are separated by 1.00 × 10^-² m.One charge is -2.8 × 10^-⁸ C; and the other is +2.8 × 10^-⁸ C.The points A and B are located 2.5 × 10^-³ m from the lower and upper point charges as shown.
If an electron, which has a charge of 1.60 × 10^-¹⁹ C, is moved from rest at A to rest at B, what is the change in electric potential energy of the electron?

A)+4.3 × 10^-¹⁵ J
B)+5.4 × 10^-¹⁵ J
C)-2.1 × 10^-¹⁴ J
D)-3.2 × 10^-¹⁴ J
E)zero joules

Accepted Answer

The answer of 19-4&#10;Two point charges are separated by 1.00...

Question 40

19-5
Two charges of opposite sign and equal magnitude Q = 0.82 C are held 2.0 m apart as shown in the figure.
How much work is required to move a 1.0 C charge from infinity to the point P?

A)zero joules
B)2.2 × 10⁹ J
C)4.5 × 10⁹ J
D)9.0 × 10⁹ J
E)infinity

Accepted Answer

The answer of 19-5&#10;Two charges of opposite sign and equal...

Question 41

A parallel plate capacitor has a potential difference between its plates of 1.6 V and a plate separation distance of 2.5 mm.What is the magnitude of the electric field if a material that has a dielectric constant of 3.4 is inserted between the plates?

A)110 V/m
B)170 V/m
C)190 V/m
D)240 V/m
E)290 V/m

Accepted Answer

The answer of A parallel plate capacitor has a potential...

Question 42

A potential difference of 120 V is established between two parallel metal plates.The magnitude of the charge on each plate is 0.020 C.What is the capacitance of this capacitor?&#10;A)170 &#181;F&#10;B)24 &#181;F&#10;C)7.2 &#181;F&#10;D)0.12 F&#10;E)2.4 F

Accepted Answer

The answer of A potential difference of 120 V is...

Question 43

19-8
The plates of a parallel plate capacitor each have an area of 0.40 m² and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated.
Determine the magnitude of the charge on either capacitor plate.

A)1.8 × 10^-⁷ C
B)2.7 × 10^-⁷ C
C)4.9 × 10^-⁷ C
D)5.4 × 10^-⁷ C
E)6.8 × 10^-⁷ C

Accepted Answer

The answer of 19-8&#10;The plates of a parallel plate capacitor...

Question 44

19-8
The plates of a parallel plate capacitor each have an area of 0.40 m² and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated.
Determine the value of the capacitance.

A)9.0 × 10^-¹¹ F
B)1.8 × 10^-¹⁰ F
C)3.6 × 10^-¹⁰ F
D)4.8 × 10^-¹⁰F
E)6.4 × 10^-¹⁰F

Accepted Answer

The answer of 19-8&#10;The plates of a parallel plate capacitor...

Question 45

A parallel plate capacitor is fully charged at a potential V.A dielectric with constant $\kappa$ = 4 is inserted between the plates of the capacitor while the potential difference between the plates remains constant.Which one of the following statements is false concerning this situation?

A)The energy density remains unchanged.
B)The capacitance increases by a factor of four.
C)The stored energy increases by a factor of four.
D)The charge on the capacitor increases by a factor of four.
E)The electric field between the plates increases by a factor of four.

Accepted Answer

The answer of A parallel plate capacitor is fully charged...

Question 46

The effective area of each plate of a parallel plate capacitor is 2.1 m².The capacitor is filled with neoprene rubber ( $\kappa$ = 6.4).When a 6.0-V potential difference exists across the plates of the capacitor, the capacitor stores 4.0 µC of charge.Determine the plate separation of the capacitor.

A)7.2 × 10^-⁵ m
B)3.0 × 10^-⁴ m
C)1.8 × 10^-⁴ m
D)5.3 × 10^-⁴ m
E)8.2 × 10^-⁵ m

Accepted Answer

The answer of The effective area of each plate of...

Question 47

A parallel plate capacitor with plates of area A and plate separation d is charged so that the potential difference between its plates is V.If the capacitor is then isolated and its plate separation is decreased to d/2, what happens to its capacitance?

A)The capacitance is twice its original value.
B)The capacitance is four times its original value.
C)The capacitance is eight times its original value.
D)The capacitance is one half of its original value.
E)The capacitance is unchanged.

Accepted Answer

The answer of A parallel plate capacitor with plates of...

Question 48

A parallel plate capacitor has plates of area 2.0 × 10^-³ m² and plate separation 1.0 × 10^-⁴ m.Determine the capacitance of this system if air fills the volume between the plates. A)1.1 × 10^-¹⁰ F B)1.8 × 10^-¹⁰ F C)3.2 × 10^-¹⁰F D)4.4 × 10^-¹⁰ F E)5.3 × 10^-¹⁰ F

Accepted Answer

The answer of A parallel plate capacitor has plates of...

Question 49

Which one of the following changes will necessarily increase the capacitance of a capacitor?&#10;A)decreasing the charge on the plates&#10;B)increasing the charge on the plates&#10;C)placing a dielectric between the plates&#10;D)increasing the potential difference between the plates&#10;E)decreasing the potential difference between the plates

Accepted Answer

The answer of Which one of the following changes will...

Question 50

19-8
The plates of a parallel plate capacitor each have an area of 0.40 m² and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated.
Determine the magnitude of the charge on either capacitor plate.

A)1.8 × 10^-⁷ C
B)2.7 × 10^-⁷ C
C)4.9 × 10^-⁷ C
D)5.4 × 10^-⁷ C
E)6.8 × 10^-⁷ C

Accepted Answer

The answer of 19-8&#10;The plates of a parallel plate capacitor...

Question 51

A parallel plate capacitor has plates of area 2.0 × 10^-³ m² and plate separation 1.0 × 10^-⁴ m.Air fills the volume between the plates.What potential difference is required to establish a 3.0$\mu$C charge on the plates? A)9.3 × 10² V B)2.4 × 10⁴ V C)1.7 × 10⁴ V D)6.9 × 10³ V E)3.7 × 10⁵ V

Accepted Answer

The answer of A parallel plate capacitor has plates of...

Question 52

Complete the following statement: When a dielectric with constant$\kappa$ is inserted between the plates of a charged isolated capacitor&#10;A)the capacitance is reduced by a factor $\kappa$.&#10;B)the charge on the plates is reduced by a factor of $\kappa$.&#10;C)the charge on the plates is increased by a factor of $\kappa$.&#10;D)the electric field between the plates is reduced by a factor of $\kappa$.&#10;E)the potential difference between the plates is increased by a factor of $\kappa$.

Accepted Answer

The answer of Complete the following statement: When a dielectric...

Question 53

19-7&#10;The sketch shows cross sections of equipotential surfaces between two charged conductors shown in solid black.Points on the equipotential surfaces near the conductors are labeled A, B, C, ..., H.  &#10;A parallel plate capacitor with plates of area A and plate separation d is charged so that the potential difference between its plates is V.If the capacitor is then isolated and its plate separation is decreased to d/2, what happens to the potential difference between the plates?&#10;A)The final potential difference is 4V.&#10;B)The final potential difference is 2V.&#10;C)The final potential difference is 0.5V.&#10;D)The final potential difference is 0.25V.&#10;E)The final potential difference is V.

Accepted Answer

The answer of 19-7&#10;The sketch shows cross sections of equipotential...

Question 54

A capacitor is initially charged to 3 V.It is then connected to a 6 V battery.What is the ratio of the final to the initial energy stored in the capacitor?&#10;A)3&#10;B)5&#10;C)6&#10;D)7&#10;E)9

Accepted Answer

The answer of A capacitor is initially charged to 3...

Question 55

A capacitor has a very large capacitance of 10 F.The capacitor is charged by placing a potential difference of 2 V between its plates.How much energy is stored in the capacitor?&#10;A)2000 J&#10;B)500 J&#10;C)100 J&#10;D)40 J&#10;E)20 J

Accepted Answer

The answer of A capacitor has a very large capacitance...

Question 56

A uniform electric field of 8 V/m exists between the plates of a parallel plate capacitor.How much work is required to move a +20 $\mu$C point charge from the negative plate to the positive plate if the plate separation is 0.050 m? A)0.4 J B)1.6 J C)8 × 10^-⁴ J D)8 × 10^-⁵ J E)8 × 10^-⁶J

Accepted Answer

The answer of A uniform electric field of 8 V/m...

Question 57

19-8
The plates of a parallel plate capacitor each have an area of 0.40 m² and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated.
Determine the magnitude of the charge on either capacitor plate.

A)1.8 × 10^-⁷ C
B)2.7 × 10^-⁷ C
C)4.9 × 10^-⁷ C
D)5.4 × 10^-⁷ C
E)6.8 × 10^-⁷ C

Accepted Answer

The answer of 19-8&#10;The plates of a parallel plate capacitor...

Question 58

The plates of a parallel plate capacitor each have an area of 0.40 m 2 and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated. -How much work is required to move a -4.0 $\mu$C charge from the negative plate to the positive plate of this system? A)-1.2 × 10^-² J B)+1.2 × 10^-² J C)-2.4 × 10^-² J D)+2.4 × 10^-² J E)-5.4 × 10^-² J

Accepted Answer

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Question 59

19-7&#10;The sketch shows cross sections of equipotential surfaces between two charged conductors shown in solid black.Points on the equipotential surfaces near the conductors are labeled A, B, C, ..., H.  &#10;The magnitude of the charge on the plates of an isolated parallel plate capacitor is doubled.Which one of the following statements is true concerning the capacitance of this parallel-plate system?&#10;A)The capacitance is decreased to one half of its original value.&#10;B)The capacitance is increased to twice its original value.&#10;C)The capacitance remains unchanged.&#10;D)The capacitance depends on the electric field between the plates.&#10;E)The capacitance depends on the potential difference across the plates.

Accepted Answer

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Question 60

19-8 The plates of a parallel plate capacitor each have an area of 0.40 m² and are separated by a distance of 0.02 m.They are charged until the potential difference between the plates is 3000 V.The charged capacitor is then isolated. Suppose that a dielectric sheet is inserted to completely fill the space between the plates and the potential difference between the plates drops to 1000 V.What is the capacitance of the system after the dielectric is inserted? A)1.8 × 10^-¹⁰ F B)2.7 × 10^-¹⁰ F C)5.4 × 10^-¹⁰ F D)6.2 × 10^-¹⁰ F E)6.8 × 10^-¹⁰ F

Accepted Answer

The answer of 19-8&#10;The plates of a parallel plate capacitor...

Question 61

19-11&#10;An isolated system consists of two conducting spheres A and B.Sphere A has five times the radius of sphere B.Initially, the spheres are given equal amounts of positive charge and are isolated from each other.The two spheres are then connected by a conducting wire.&#10;Note: The potential of a sphere of radius R that carries a charge Q is V = kQ/R, if the potential at infinity is zero.&#10;Which one of the following statements is true after the spheres are connected by the wire?&#10;A)The electric potential of A is 1/25 as large as that of B.&#10;B)The electric potential of A equals that of B.&#10;C)The electric potential of A is 25 times larger than that of B.&#10;D)The electric potential of A is 1/5 as large as that of B.&#10;E)The electric potential of A is five times larger than that of B.

Accepted Answer

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Question 62

&#10;The figure below shows four parallel plate capacitors: A, B, C, and D.Each capacitor carries the same charge q and has the same plate area A.As suggested by the figure, the plates of capacitors A and C are separated by a distance d while those of B and D are separated by a distance 2d.Capacitors A and B are maintained in vacuum while capacitors C and D contain dielectrics with constant $\kappa$ = 5.  &#10;&#10;-Which capacitor is storing the greatest amount of electric potential energy?&#10;A)A&#10;B)B&#10;C)C&#10;D)D&#10;E)Since all four carry the same charge, each will store the same amount of energy.

Accepted Answer

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Question 63

19-10 Two positive charges are located at points A and B as shown in the figure.The distance from each charge to the point P is a = 2.0 m. Determine the electric potential at the point P. A)1.35 × 10⁴ V B)1.89 × 10⁴ V C)2.30 × 10⁴ V D)2.70 × 10⁴ V E)3.68 × 10⁴ V

Accepted Answer

The answer of 19-10&#10;Two positive charges are located at points...

Question 64

19-10&#10;Two positive charges are located at points A and B as shown in the figure.The distance from each charge to the point P is a = 2.0 m.  &#10;Which statement is true concerning the direction of the electric field at P?&#10;A)The direction is toward A.&#10;B)The direction is toward B.&#10;C)The direction is directly away from A.&#10;D)The direction makes a 45&#176; angle above the horizontal direction.&#10;E)The direction makes a 135&#176; angle below the horizontal direction.

Accepted Answer

The answer of 19-10&#10;Two positive charges are located at points...

Deck 19: Electric Potential Energy and the Electric Potential