Deck 1: The Electric Field I: Discrete Charge Distributions

A) The positive charges stay uniformly distributed on the surface of the middle sphere.
B) There are more positive charges near the top and bottom of the sphere compared to the sides next to the two other spheres.
C) There are more positive charges near the sides of the spheres that are next to the other two spheres compared to the other regions of the sphere.
D) There are more positive charges near the front and back of the sphere compared to the sides next to the two other spheres.
E) None of these is correct.

A) 1.13 * 10^-3 N
B) 1.13 *10^-7 N
C) 1.02 *10⁷ N
D) 1.25 *10^-13 N
E) 1.02* 10^-6 N

A) are about 2000 times more massive than electrons.
B) are about 2000 times less massive than electrons.
C) have 2000 times the charge of electrons.
D) have 1/2000 the charge of electrons.
E) can have any amount of charge.

A) 1.25 * 10^-7
B) 1.60 * 10^-19
C) 1.28 * 10¹²
D) 3.45 * 10¹¹
E) 7.81 * 10¹¹

A) no net charge.
B) a positive charge.
C) a negative charge.
D) either a positive or negative charge.
E) None of these is correct.

A) at least one sphere is charged
B) neither is charged
C) both are charged
D) both have the same charge
E) None of these is correct.

A) 1.13 mN
B) 0.373 mN
C) 3.11 mN
D) 1.25 mN
E) 1.02 $\mu$ N

A) also have the same magnitude.
B) attract each other.
C) repel each other.
D) exert no forces on each other.
E) None of these is correct.

A) 7.9 * 10^-7 C
B) 2.9 * 10^-7 C
C) 7.5 * 10^-2 C
D) 6.3 *10^-13 C
E) 1.8 *10^-7 C

A) also have the same magnitude.
B) attract each other.
C) exert no forces on each other.
D) repel each other.
E) None of these is correct.

A) are about 2000 times more massive than protons.
B) are about 2000 times less massive than protons.
C) have 2000 times the charge of protons.
D) have 1/2000 the charge of protons.
E) can have any amount of charge.

A) charge is quantized and conserved.
B) charge is quantized but not conserved.
C) charge is conserved but not quantized.
D) charge is neither quantized nor conserved.
E) None of these answers is correct.

A) Charges can move freely in conductors.
B) Charges can move freely in insulators.
C) In conductors, one or more of the outer electrons from an atom is no longer bounded to the atom.
D) In insulators, all the electrons from an atom are bounded to the atom.
E) Charges in both conductors and insulators can become polarized, i.e., one end has charges of one sign and the other end has charges of opposite sign.

A) 10⁹ electrons
B) 10¹⁰ electrons
C) 10¹¹ electrons
D) 10¹² electrons
E) 10¹³ electrons

A) 0.79 $\mu$ C
B) 2.9 $\mu$ C
C) 75 mC
D) 6.3 $\mu$ C
E) 0.11 $\mu$ C

A) 90
B) 158
C) 22
D) 68
E) None of the above

A) no net charge.
B) a positive charge.
C) a negative charge.
D) either a positive or negative charge.
E) None of these is correct.

A) +2e
B) zero
C) -2e
D) +e
E) -e

A) zero
B) 1.4 *10^-17 C
C) 2.5*10^-17 C
D) 1.1* 10^-17 C
E) 3.5 * 10^-18 C

A) 1.60 * 10^-19 C
B) 3.36 * 10^-39 C
C) 1.23 * 10^-77 C
D) 2.27 * 10^-39 C
E) 4.41 * 10^-40 C

A) 16 N
B) 12 N
C) 10 N
D) 8.0 N
E) 6.4 N

A) 22.8 N
B) 10.2 N
C) 26.0 N
D) 187 N
E) none of the above

A) 1.1 * 10⁶ N to the right
B) 1.1 * 10⁶ N to the left
C) 2.5 *10⁶ N to the right
D) 2.5 *10⁶ N to the left
E) 4.5*10⁷ N to the right

A) zero.
B) upward.
C) downward.
D) to the west.
E) to the east.

A) 2000 times greater than
B) equal to
C) 2000 times less than
D) negligible compared to
E) None of these answers is correct.

A) A
B) B
C) C
D) D
E) None, it feels no net force.

A) F/2
B) 2F
C) F/4
D) 4F
E) 1/F²

A) 9F
B) 3F
C) F/3
D) F/9
E) 1/F³

A) zero.
B) upward.
C) downward.
D) to the west.
E) to the east.

A) the mass of the particle
B) the charge on the particle
C) permeability
D) permittivity
E) the inverse-square law

A) 0.25 km
B) 0.20 km
C) 0.15 km
D) 0.13 km
E) 0.10 km

A) In nature, electric charge is conserved.
B) The force of repulsion between two like charges is directly proportional to the product of the square of the charges.
C) The force of repulsion between two like charges is inversely proportional to the square of the distance separating the charges.
D) Unlike charges attract each other.
E) Like charges repel each other.

A) A
B) B
C) C
D) D
E) None, it feels no net force.

A) vertically up.
B) vertically down.
C) zero.
D) horizontal to the left.
E) horizontal to the right.

A) 4.5 *10^-3 N
B) 2.0 * 10^-3 N
C) 1.5*10^-3 N
D) zero
E) 5.0 * 10^-3 N

A) x < 0
B) 0 < x < a
C) x > a
D) x < 0 or 0 < x < a
E) 0 < x < a or x > a

A) 9.0 * 10⁹ N
B) 1.1 * 10^-32 N
C) 9.0 * 10²⁰ N
D) 1.0 * 10^-22 N
E) 9.0 *10^-11 N

A) 1.3 N
B) 5.9 N
C) 9.8 N
D) 8.7 N
E) 6.4 N

A) 4.27 * 10¹⁵ N
B) 3.85 * 10^-14 N
C) 6.83 * 10^-2 N
D) 6.42 N
E) 1.09 * 10^-1 N

A) Q₁ = Q₂ /9
B) Q₁ = 9Q₂
C) Q₁ = Q₂ /3
D) Q₁ = 3Q₂
E) Q₁ = 4Q₂ /3

A) 1.4 * 10⁷ N/C
B) 1.0 * 10¹¹ N/C
C) 3.6 *10¹⁰ N/C
D) 30 N/C
E) 1.8* 10⁷ N/C

A) zero.
B) not zero and is directed along the line from P to Q₃.
C) not zero and is directed along the line from P to Q₂.
D) not zero and is directed along the line from Q₁ to Q₂.
E) None of these is correct.

A) perpendicular to .
B) zero because the speed is zero.
C) in the direction opposite to .
D) in the same direction as .
E) None of these is correct.

A) Q₁ = 9Q₂
B) Q₁ = -Q₂ /9
C) Q₁ = Q₂ /3
D) Q₁ = -3Q₂
E) Q₁ = -9Q₂

A) It cannot be on the line joining the charges.
B) It must be on the line joining the charges and between the charges.
C) It must be on the line joining the charges but not between the charges.
D) Its position depends on the size of the charges.
E) None of these is correct.

A) 2.2 *10⁷ N/C to the left
B) 1.8 *10⁷ N/C to the right
C) 1.8 *10⁷ N/C to the left
D) 3.2 * 10⁶ N/C to the right
E) 4.0 F* 10⁶ N/C to the left

A) 5 * 10^-3 N
B) 9.81 *10^-3 N
C) 4.81 *10^-3 N
D) 1.48 *10^-2 N
E) 0

A) 1.2 * 10^-8 N/C
B) 16 N/C
C) 2.0 N/C
D) 1.9 *10¹⁰ N/C
E) 1.2 *10⁸ N/C

A) 2.9 *10⁵ N/C
B) 2.9 * 10⁴ N/C
C) 3.6 * 10⁵ N/C
D) 0.29 kN/C
E) 3.6 * 10⁶ N/C

A) +32 $\mu$ C
B) -32 $\mu$ C
C) The field cannot be zero at A for any value of Q₁.
D) +16 $\mu$ C
E) -16 $\mu$ C

A) the force on a neutron placed at that point.
B) the force on a proton placed at that point.
C) the force on an electron placed at that point.
D) the force on a hydrogen molecule placed at that point.
E) None of these is correct.

A) 8.6*10^-8 N perpendicular to the xy plane.
B) 2.9 * 10^-14 N in the y direction.
C) 8.6 * 10^-8 N in the x direction.
D) zero.
E) 2.9 *10^-14 N in the x direction.

A) 6.81 * 10¹⁷ N/C
B) 4.27 * 10¹⁷ N/C
C) 2.40 * 10⁵ N/C
D) 3.83 * 10⁵ N/C
E) none of the above

A) in the positive x direction.
B) in the negative x direction.
C) in the positive y direction.
D) in the negative y direction.
E) zero at this point.

A) 1.73 *10¹ N/C and Q is positive.
B) 9.81 *10¹ N/C and Q is negative.
C) 9.81 * 10¹ N/C and Q is positive.
D) 1.73 *10¹ N/C and Q is negative.
E) 1.80 *10^-1 N/C and Q is positive.

A) less than
B) equal to
C) greater than
D) dependent on the strength of E in relation to
E) insufficient information to tell

A) the charges are equal in magnitude but opposite in sign.
B) the charges are equal in magnitude and have the same sign.
C) the charges are not necessarily equal in magnitude but have opposite signs.
D) the charges are not necessarily equal in magnitude but have the same sign.
E) there is not enough information to say anything specific about the charges.

A) C/m²
B) C/s
C) V · C
D) N
E) V/m

A) 1
B) 2
C) 3
D) 4
E) 5

A)
B)
C)
D)
E)

A)
B)
C)
D)
E)

A) 1.0 * 10⁵ m/s
B) 4.0* 10⁴ m/s
C) 1.08 *10⁵ m/s
D) 1.4 * 10⁵ m/s
E) 1.8 *10⁵ m/s

A) 2.5*10^-5 m/s
B) 3.9 * 10³ m/s
C) 3.0 * 10⁸ m/s
D) 2.5 * 10³ m/s
E) 4.4 *10⁶ m/s

A) The number of lines leaving a positive charge or entering a negative charge is proportional to the charge.
B) The lines begin on positive charges and end on negative charges.
C) The density of the lines (the number per unit area perpendicular to the lines) is proportional to the magnitude of the field at that point.
D) Electric field lines cross midway between charges that have equal magnitude and sign.
E) The direction of each line indicates the direction that a positively charged particle would move if placed at that point in the electric field.

A) 1.76* 10¹⁷ m/s²
B) 16.0 m/s²
C) 1.60 m/s²
D) 1.76 * 10¹⁸ m/s²
E) 176 m/s²

A) 9.6*10⁶ m/s
B) 3.9 * 10³ m/s
C) 3.1 *10⁸ m/s
D) 5.5 * 10³ m/s
E) 7.4 * 10⁶ m/s

A)
B)
C)
D)
E)

A)
B)
C)
D)
E)

A) 1
B) 2
C) 3
D) 4
E) None of these is correct.

A) 1:2
B) -1:2
C) 2:1
D) -2:1
E) 2:-1

A) a constant velocity in the direction of the field.
B) a constant velocity in a direction opposite to that of the field.
C) an approximately constant acceleration the direction of the field.
D) an approximately constant acceleration in a direction opposite to that of the field.
E) an approximately constant acceleration in a direction at right angles to the field.

A) both A and B are positive.
B) both A and B are negative.
C) A is positive and B is negative.
D) B is positive and A is negative.
E) B is negative and A is neutral.

A) 1
B) 2
C) 3
D) 4
E) There is no force on the charge.

A)
B)
C)
D)
E)

A) The lines are drawn symmetrically entering or leaving an isolated charge.
B) At large distances from a system of charges, the field lines are equally spaced and radial, as if they came from a single point charge equal to the net charge of the system.
C) Electric field lines begin on positive charges (or at infinity) and end on negative charges (or at infinity).
D) The number of lines leaving a positive charge or entering a negative charge is proportional to the charge.
E) All of these statements are true.

A) moves perpendicular to the field with constant velocity.
B) moves with constant velocity parallel to the field.
C) accelerates in the direction of the field.
D) accelerates perpendicularly to the field.
E) moves only along equipotential lines.

A) zero
B) 9.0 mm/s²
C) 22 cm/s²
D) 4.5 m/s²
E) 7.5 * 10⁵ m/s²

A) zero
B) 5.4 m/s²
C) 6.8 cm/s²
D) 4.5 m/s²
E) 7.5 cm/s²

A) 1
B) 2
C) 3
D) 4
E) None of these is correct.