a-c mahalos Problem 4In the circuit to the right, & = 1.2kV, C = 6.5 µF, and R₁ = R₂ =R3 R = 0.73 M. With C completely uncharged, switch S is sud-denly closed at t = 0. Remember to draw equivalent circuits to helpwith the analysis!R₁- 18SR₂R₂(a) At t = 0, what is the voltage across the capacitor? How are the voltages across R3 and R₂related?(b) At t = 0, what are the currents in each resistor?(c) For too, what are the currents in each resistor?(d) For t→∞, what are the voltages across each resistor?(e) For t→∞, what is the voltage across the capacitor?(f) Once the circuit has nearly reached equilibrium, the switch is reopened. What is the currentin each resistor right after the switch is reopened? The equivalent circuit will be super usefulhere; note that when we change the circuit by opening the switch, the capacitor is no longer insteady state - do not assume its current is zero!(g) How long after the switch reopened does it take for the current in R3 to drop to half of thevalue it had immediately after the switch was reopened?

Given, Emf e = 1.2kV = 1200 vC = 6.5μFResistance R1 , R2, R3= R = 0.73M∩ = 730 X 103 ohmsIt is…

In the circuit to the right, E = 1.2kV, C = 6.5 μF, and R₁ = R₂ = R3 R = 0.73 MM. With C completely uncharged, switch S is sud- denly closed at t = 0. Remember to draw equivalent circuits to help with the analysis! R₁ (b) At t = 0, what are the currents in each resistor? (c) For t→∞o, what are the currents in each resistor? R₂ 350 ww (a) At t = 0, what is the voltage across the capacitor? How are the voltages across R3 and R2 related?

In the circuit to the right, E = 1.2kV, C = 6.5 μF, and R₁ = R₂ = R3 R = 0.73 MM. With C completely uncharged, switch S is sud- denly closed at t = 0. Remember to draw equivalent circuits to help with the analysis! R₁ (b) At t = 0, what are the currents in each resistor? (c) For t→∞o, what are the currents in each resistor? R₂ 350 ww (a) At t = 0, what is the voltage across the capacitor? How are the voltages across R3 and R2 related?

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Question

a-c mahalos

Problem 4
In the circuit to the right, & = 1.2kV, C = 6.5 µF, and R₁ = R₂ =
R3 R = 0.73 M. With C completely uncharged, switch S is sud-
denly closed at t = 0. Remember to draw equivalent circuits to help
with the analysis!
R₁
- 18
S
R₂
R₂
(a) At t = 0, what is the voltage across the capacitor? How are the voltages across R3 and R₂
related?
(b) At t = 0, what are the currents in each resistor?
(c) For too, what are the currents in each resistor?
(d) For t→∞, what are the voltages across each resistor?
(e) For t→∞, what is the voltage across the capacitor?
(f) Once the circuit has nearly reached equilibrium, the switch is reopened. What is the current
in each resistor right after the switch is reopened? The equivalent circuit will be super useful
here; note that when we change the circuit by opening the switch, the capacitor is no longer in
steady state - do not assume its current is zero!
(g) How long after the switch reopened does it take for the current in R3 to drop to half of the
value it had immediately after the switch was reopened?

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