The figure below shows three capacitors with capacitances CA = 1.00 μF, CB = 2.20 μF, and Cc = 3.70 μF connected to a 3.00-V battery.CACBCc(a) What is the equivalent capacitance of the three capacitors?1.715UF(b) What charge is stored in each of the capacitors?QA =HCQB =HC3.525xQc =Your response differs from the correct answer by more than 10%. Double check your calculations. μC(c) What is the potential difference across each of the capacitors?AVA =AVB =AVc =VVV Consider the final arrangement of charged particles shown in the figure below. What is the work necessary to build such an arrangement of particles, assuming they were originally very far from one another? (Let q₁ = 9.5 nC, 92= 3.0 nC and 93 = -12.5 nC.)-0.0000032093 XYour response differs from the correct answer by more than 10%. Double check your calculations. J(-12.0 cm, 0)91(-12.0 cm, -12.0 cm)93(12.0 cm, 0)92

The figure below shows three capacitors with capacitances CA = 1.00 μF, CB= 2.20 μF, and Cc = 3.70 μF connected to a 3.00-V battery. (a) What is the equivalent capacitance of the three capacitors? 1.715 UF Qc CA (b) What charge is stored in each of the capacitors? QA = μC QB = UC 3.525 x Your response differs from the correct answer by more than 10%. Double check your calculations. μC = CB AVB = AVC (c) What is the potential difference across each of the capacitors? AVA =

The figure below shows three capacitors with capacitances CA = 1.00 μF, CB= 2.20 μF, and Cc = 3.70 μF connected to a 3.00-V battery. (a) What is the equivalent capacitance of the three capacitors? 1.715 UF Qc CA (b) What charge is stored in each of the capacitors? QA = μC QB = UC 3.525 x Your response differs from the correct answer by more than 10%. Double check your calculations. μC = CB AVB = AVC (c) What is the potential difference across each of the capacitors? AVA =

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Question

The figure below shows three capacitors with capacitances CA = 1.00 μF, CB = 2.20 μF, and Cc = 3.70 μF connected to a 3.00-V battery.
CA
CB
Cc
(a) What is the equivalent capacitance of the three capacitors?
1.715
UF
(b) What charge is stored in each of the capacitors?
QA =
HC
QB =
HC
3.525
x
Qc =
Your response differs from the correct answer by more than 10%. Double check your calculations. μC
(c) What is the potential difference across each of the capacitors?
AVA =
AVB =
AVc =
V
V
V

Consider the final arrangement of charged particles shown in the figure below. What is the work necessary to build such an arrangement of particles, assuming they were originally very far from one another? (Let q₁ = 9.5 nC, 92= 3.0 nC and 93 = -12.5 nC.)
-0.0000032093 X
Your response differs from the correct answer by more than 10%. Double check your calculations. J
(-12.0 cm, 0)
91
(-12.0 cm, -12.0 cm)
93
(12.0 cm, 0)
92

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