2- A two-loop circuit is given below. Initially the switch S is open and the capacitor has no charge. a) At time t = 0, S is closed. Determine the currents I₁, I2 and 13, just after S is closed, E-10 V- I₁ ww R=592 S R=52 b) As to after S is closed, determine the currents I₁, I2 and 13, c) As t→∞ after S is closed, what is the charge on the capacitor? d) Now S is opened again, (after the capacitor is fully charged): i. Determine the time constant of the circuit ii. Determine the charge on the capacitor at time t = 5µs after S is opened again. C-2 µF
2- A two-loop circuit is given below. Initially the switch S is open and the capacitor has no charge. a) At time t = 0, S is closed. Determine the currents I₁, I2 and 13, just after S is closed, E-10 V- I₁ ww R=592 S R=52 b) As to after S is closed, determine the currents I₁, I2 and 13, c) As t→∞ after S is closed, what is the charge on the capacitor? d) Now S is opened again, (after the capacitor is fully charged): i. Determine the time constant of the circuit ii. Determine the charge on the capacitor at time t = 5µs after S is opened again. C-2 µF
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Transcribed Image Text:2- A two-loop circuit is given below. Initially the
switch S is open and the capacitor has no
charge.
a) At time t = 0, S is closed. Determine the
currents I1, I2 and 13, just after S is closed,
E-10 V-
I₁
ww
R=592
R=592
b) As t→∞ after S is closed, determine the
currents I₁, I2 and 13,
c) As t→∞ after S is closed, what is the charge on the capacitor?
d) Now S is opened again, (after the capacitor is fully charged):
i. Determine the time constant of the circuit
ii. Determine the charge on the capacitor at time t = 5µs after S is opened again.
C-2 μF
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