For the RLC circuit shown in the image below, assume the circuit has long reached a steady state, and then the switch closes at t = 0. 1- In the circuit, R = 13 Ω and Is = 7.4 H. Determine the current, i, when t = 0.91 s. 2- If R = 19 Ω and Is = 4.4 H. Determine the voltage, v, when t = 0.28 s.

For the RLC circuit shown in the image below, assume the circuit has long reached a steady state, and then the switch closes at t = 0. 1- In the circuit, R = 13 Ω and Is = 7.4 H. Determine the current, i, when t = 0.91 s. 2- If R = 19 Ω and Is = 4.4 H. Determine the voltage, v, when t = 0.28 s.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter19: Capacitors

Section: Chapter Questions

Problem 1PP: Fill in all the missing values. Refer to the formulas that follow. Resistance Capacitance Time...

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Question

For the RLC circuit shown in the image below, assume the circuit has long reached a steady state, and then the switch closes at t = 0.

1- In the circuit, R = 13 Ω and Is = 7.4 H. Determine the current, i, when t = 0.91 s.

2- If R = 19 Ω and Is = 4.4 H. Determine the voltage, v, when t = 0.28 s.

(3 places after the decimal point)

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Step 1: Given data

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Step 2: 1) The current, i, when t = 0.91 s, If R = 13 Ω and Is = 7.4 A.

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Step 3: 2) The voltage, v, when t = 0.28 s, if R = 19 Ω and Is = 4.4 A.

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