1. 1. a) 1. b) 1. c) In the circuit below, the switch SW is initially open (i.e., disconnected). Suppose that the electric current in the circuit has reached equilibrium. For all calculations below, take the negative end of the battery as the zero potential. Calculate the potential at point a. Calculate the quantity of charge carried by each capacitor. (Note that the two capacitors are connected in series and thus always sharing the same charging current.) Calculate the potential at point b.

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1.
1. a)
1. b)
1. c)
1. d)
BAT
12 V
a
In the circuit below, the switch SW is initially open (i.e., disconnected). Suppose that the electric
current in the circuit has reached equilibrium. For all calculations below, take the negative end of
the battery as the zero potential.
Calculate the potential at point a.
Calculate the quantity of charge carried by each capacitor. (Note that the two capacitors are
connected in series and thus always sharing the same charging current.)
Calculate the potential at point b.
If the switch SW is closed (i.e., connected), the potential at point b will be forced to equal the
potential at point a. Calculate the quantity of charge on each capacitor after the current in the
circuit reaches equilibrium.
R1
50 Ω
R2
100 Q2
SW
o b
C1
1 μF
C2
4 µF
Transcribed Image Text:1. 1. a) 1. b) 1. c) 1. d) BAT 12 V a In the circuit below, the switch SW is initially open (i.e., disconnected). Suppose that the electric current in the circuit has reached equilibrium. For all calculations below, take the negative end of the battery as the zero potential. Calculate the potential at point a. Calculate the quantity of charge carried by each capacitor. (Note that the two capacitors are connected in series and thus always sharing the same charging current.) Calculate the potential at point b. If the switch SW is closed (i.e., connected), the potential at point b will be forced to equal the potential at point a. Calculate the quantity of charge on each capacitor after the current in the circuit reaches equilibrium. R1 50 Ω R2 100 Q2 SW o b C1 1 μF C2 4 µF
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