Show with work In the circuit shown, e = 4V, R1 =43 8, R2 = 72 h, and C = 14 MF. Initially, the capacitor is uncharged and the switch is open. At t =0, the switch is closed. The positive directions of the currents are represented by the arrows in the diagram. (a) What is the current running out of the battery at t = 0s? (b) After the switch has been closed for a long time, calculate 11, 12, l3, and Qtot (the total charge on the capacitor). In your answer, please use the naming convention for the currents shown in the diagram.
Show with work In the circuit shown, e = 4V, R1 =43 8, R2 = 72 h, and C = 14 MF. Initially, the capacitor is uncharged and the switch is open. At t =0, the switch is closed. The positive directions of the currents are represented by the arrows in the diagram. (a) What is the current running out of the battery at t = 0s? (b) After the switch has been closed for a long time, calculate 11, 12, l3, and Qtot (the total charge on the capacitor). In your answer, please use the naming convention for the currents shown in the diagram.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Show with work
In the circuit shown, e = 4V, R1 =43 8, R2 = 72 h, and C = 14 MF.
Initially, the capacitor is uncharged and the switch is open. At t =0, the switch is closed. The positive directions of the currents are represented by the arrows in the diagram.
(a) What is the current running out of the
battery at t = 0s?
(b) After the switch has been closed for a long time, calculate 11, 12, l3, and Qtot (the total charge on the capacitor). In your answer, please use the naming convention for the currents shown in the diagram.
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