Deck 25: Capacitance

A)the electric field is doubled
B)the potential difference is halved
C)the charge on each plate is halved
D)the surface charge density on each plate is doubled
E)none of the above

A)J/C
B)V/C
C)J²/C
D)C/J
E)C²/J

A)Q, Q
B)Q/2, Q/2
C)Q, -Q
D)Q/2, -Q/2
E)Q, 0

A)decreasing both the radius of the inner cylinder and the length
B)increasing both the radius of the inner cylinder and the length
C)increasing the radius of the outer cylindrical shell and decreasing the length
D)decreasing the radius of the inner cylinder and increasing the radius of the outer cylindrical shell
E)only by decreasing the length

A)0.2 V
B)0.5 V
C)2 V
D)5 V
E)none of these

A)increasing the charge
B)decreasing the charge
C)increasing the plate separation
D)decreasing the plate separation
E)decreasing the plate area

A)increases the capacitance
B)increases the potential difference
C)does not affect the potential difference
D)decreases the potential difference
E)does not affect the capacitance

A)3.5 * 10^-6 C
B)7.1 *10^-6 C
C)1.4 * 10^-5 C
D)1.8 * 10^-5 C
E)8.9 * 10^-5 C

A)5 N
B)9 N
C)1 * 10⁴ N
D)9 *10⁵ N
E)2* 10⁷ N

A)doubled
B)halved
C)unchanged
D)one-fourth the original
E)quadrupled

A)5 $\mu$ F
B)10 $\mu$ F
C)50 $\mu$ F
D)100 $\mu$ F
E)none of these

A)0.2 C
B)0.5 C
C)20 C
D)50 C
E)none of these

A)the electric field is doubled
B)the potential difference is halved
C)the charge on each plate is halved
D)the surface charge density on each plate is doubled
E)none of the above

A)0 V
B)4 * 10^-2 V
C)2 * 10² V
D)2 *10⁵ V
E)4 * 10⁸ V

A)1, 2, 3, 4, 5
B)5, 4, 3, 2, 1
C)5, then 3 and 4 tie, then 1, then 2
D)4, then 1 and 2 tie, then 5, then 3
E)3, then 5, then 1 and 2 tie, then 4

A)proportional to the plate area
B)proportional to the charge stored
C)independent of any material inserted between the plates
D)proportional to the potential difference of the plates
E)proportional to the plate separation

A)the capacitance is halved
B)the capacitance is doubled
C)the electric field is halved
D)the electric field is doubled
E)the surface charge density is not changed on either plate

A)" $\varepsilon$ ₀d/A"
B)" $\varepsilon$ ₀d/2A"
C)" $\varepsilon$ ₀A/d"
D)" $\varepsilon$ ₀A/2d"
E)" $\varepsilon$ d/ $\varepsilon$ ₀"

A)R
B)R²
C)1/R
D)1/R²
E)none of these

A)C₁C₂/(C₁ + C₂)
B)(C₁ + C₂)/C₁C₂
C)1/(C₁ + C₂)
D)C₁/C₂
E)C₁ + C₂

A)potential difference
B)energy density
C)electric field between the plates
D)charge on the positive plate
E)dielectric constant

A)R > S > Q = P
B)P > Q > R = S
C)R > P = Q > S
D)R = P > S = Q
E)R > P > S = Q

A)C₁C₂/(C₁ + C₂)
B)(C₁ + C₂)/C₁C₂
C)1/(C₁ + C₂)
D)C₁/C₂
E)C₁ + C₂

A)the charge on C₁
B)the sum of the charges on C₁ and C₂
C)the difference of the charges on C₁ and C₂
D)the product of the charges on C₁ and C₂
E)none of the above

A)Q only
B)V only
C)U only
D)Q and U only
E)V and U only

A)twice
B)four times
C)half
D)one fourth
E)the same as

A)1 $\mu$ F
B)3 $\mu$ F
C)4 $\mu$ F
D)6 $\mu$ F
E)9 $\mu$ F

A)twice the charge of the 1- $\mu$ F capacitor
B)half the charge of the 1- $\mu$ F capacitor
C)twice the potential difference of the 1- $\mu$ F capacitor
D)half the potential difference of the 1- $\mu$ F capacitor
E)none of the above

A)potential difference
B)stored energy
C)electric field between the plates
D)charge on the positive plate
E)dielectric constant

A)0.033 C
B)0.10 C
C)0.30 C
D)10 C
E)none of these

A)the charge on C₁
B)the sum of the charges on C₁ and C₂
C)the difference of the charges on C₁ and C₂
D)the product of the charges on C₁ and C₂
E)none of the above

A)twice the charge of the 1- $\mu$ F capacitor
B)half the charge of the 1- $\mu$ F capacitor
C)twice the potential difference of the 1- $\mu$ F capacitor
D)half the potential difference of the 1- $\mu$ F capacitor
E)none of the above

A)Q/2 and V/2, respectively
B)Q and V, respectively
C)Q/2 and V, respectively
D)Q and V/2, respectively
E)Q and 2V, respectively

A)potential difference
B)stored energy
C)energy density
D)electric field between the plates
E)charge on the positive plate

A)2C/3
B)C
C)3C/2
D)2C
E)3C

A)potential difference
B)energy density
C)electric field between the plates
D)charge on the positive plate
E)plate separation

A)Q/2 and V/2, respectively
B)Q and V, respectively
C)Q/2 and V, respectively
D)Q and V/2, respectively
E)Q and 2V, respectively

A)q₂ = 3.0 *0 10 ^{- -8} C and q₃ = 3.0 *10 ^{- 8} C
B)q₂ = 2.0 *10 ^{- 8} C and q₃ = 2.0 *10 ^{- 8} C
C)q₂ = 5.0 *10 ^{- 8} C and q₃ = 1.0 *10 ^{- 8} C
D)q₂ = 3.0 * 10 ^{- 8} C and q₃ = 1.0 *10 ^{- 8} C
E)q₂ = 1.0 * 10 ^{- 8} C and q₃ = 3.0 *10 ^{- 8} C

A)Q only
B)V only
C)U only
D)Q and U only
E)V and U only

A)400 J
B)200 J
C)4 J
D)2.5 J
E)1.25 J

A)the capacitance, the potential difference between the plates, and the charge on the positive plate all increase
B)the capacitance, the potential difference between the plates, the charge on the positive plate all decrease
C)the potential difference between the plates increases, the charge on the positive plate decreases, and the capacitance remains the same
D)the capacitance and the charge on the positive plate decrease but the potential difference between the plates remains the same
E)the capacitance and the charge on the plate increase but the potential difference between the plates remains the same

A)"0 J"
B)"1.25 *10^-6 J"
C)"-1.25 * 10^-6 J"
D)"8.3* 10^-7 J"
E)"-8.3 *10^-7 J"

A)0.25
B)0.50
C)2.0
D)4.0
E)8.0

A)16 J
B)8 J
C)4 J
D)2 J
E)1 J

A)Corn contains a lot of oil and is therefore very flammable.
B)Grain elevators use a lot of flammable material while processing the corn.
C)Corn dust has a lot of surface area and can be ignited by even a very small spark, which can be created simply by a person walking around.
D)Due to the presence of lots of agricultural material, grain elevators are especially rich in oxygen.
E)Workers are not careful about where they throw their cigarette butts, and sometimes set the corn on fire.

A)0.50 $\mu$ F
B)1.0 $\mu$ F
C)1.5 $\mu$ F
D)2.0 $\mu$ F
E)4.0 $\mu$ F

A)capacitance
B)surface charge density on each plate
C)stored energy
D)electric field between the two places
E)charge on each plate

A)There is no difference.
B)Induced charge does not result in a net charge on the dielectric.
C)Induced charge is smaller than free charge.
D)Free charge creates an electric field, but induced charge does not.
E)Free charge creates an electric potential, but induced charge does not.

A)A polar dielectric has a permanent electric field.
B)A nonpolar dielectric never has an internal electric field.
C)The molecules of a polar dielectric have a permanent electric dipole moment.
D)A nonpolar dielectric can have an induced electric field in any direction.
E)A polar dielectric is always aligned with the Earth's electric field.

A)4000 J
B)4 J
C)0.4 J
D)0.1 J
E)0.004 J

A)energy/farad
B)energy/coulomb
C)energy
D)energy/volume
E)energy/volt

A)between 0 and 1
B)0
C)1
D)between 1 and infinity
E)infinite

A)material of thickness 0.1 mm and dielectric constant 2
B)material of thickness 0.2 mm and dielectric constant 3
C)material of thickness 0.3 mm and dielectric constant 2
D)material of thickness 0.4 mm and dielectric constant 8
E)material of thickness 0.5 mm and dielectric constant 11

A)a force repels the glass out of the capacitor
B)a force attracts the glass into the capacitor
C)no force acts on the glass
D)a net charge appears on the glass
E)the glass makes the plates repel each other

A)They begin to conduct electricity.
B)They create an induced electric field that is in the opposite direction of the field due to the charges on the plates.
C)They create an induced electric field that is in the same direction as the field due to the charges on the plates.
D)They completely cancel the electric field due to the charges on the plates.
E)They rotate so their positive ends are towards the positively charged plate.

A)R > P > S > Q
B)P > Q > R > S
C)R > P > Q > S
D)P > R > S > Q
E)R > S > Q > P

A)silicon
B)germanium
C)polystyrene
D)titanium
E)paper

A)0.16 J/m³
B)3.5 J/m³
C)7.8 J/m³
D)16 J/m³
E)24 J/m³