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(1) For the RLC circuit shown in Figure 1, find the input/output differential equation when the output is the voltage across the capacitor and the input is the voltage source. 1 mH 2Ω + Us (100 N 10 μF

(1) For the RLC circuit shown in Figure 1, find the input/output differential equation when the output is the voltage across the capacitor and the input is the voltage source. 1 mH 2Ω + Us (100 N 10 μF

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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(1) For the RLC circuit shown in Figure 1, find the input/output differential equation when the output is the voltage across the capacitor and the input is the voltage source. 1 mH 2Ω Us 3100 2 10 μF Figure 1. Problem 1
Transcribed Image Text:(1) For the RLC circuit shown in Figure 1, find the input/output differential equation when the output is the voltage across the capacitor and the input is the voltage source. 1 mH 2Ω Us 3100 2 10 μF Figure 1. Problem 1
Expert Solution
Step 1 Solution of question part 1

This question is based on basic KCL and KVL equations

The important thing to remember here is that

VL=d ILdt (voltage across inductor)

Ic=d Vcdt  (current in capacitor)

so here I am attaching images so that you can understand each and every step clearly.

Electrical Engineering homework question answer, step 1, image 1

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