Consider the following figure. C₁ C₂₂ G₂ G₂₂ (a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C₁ = 6.00 μF, C₂ = 13.0 μF, and C3 = 4.00 μF. 2.02 x Try redrawing the circuit sliding capacitors C₁ and C₂ on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that sliding a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. μF (b) What charge is stored on C3 if the potential difference between points a and b is 60.0 V? μC

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Consider the following figure.
C₁
C₂
C₂
a
C3
C₂
C₂
b
=
(a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C₁ = 6.00 µF, C₂
2.02
Try redrawing the circuit sliding capacitors C₁ and C₂ on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that sliding
a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. μF
(b) What charge is stored on C3 if the potential difference between points a and b is 60.0 V?
με
13.0 μF, and C3 = 4.00 μF.
Transcribed Image Text:Consider the following figure. C₁ C₂ C₂ a C3 C₂ C₂ b = (a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C₁ = 6.00 µF, C₂ 2.02 Try redrawing the circuit sliding capacitors C₁ and C₂ on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that sliding a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. μF (b) What charge is stored on C3 if the potential difference between points a and b is 60.0 V? με 13.0 μF, and C3 = 4.00 μF.
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