Ex: For the circuit shown in the figure below: 1. Find the mathematical expression for the transient behaviour of the voltage across the capacitor as well as the current of the capacitor if the capacitor was initially uncharged aznd the switch is closed at position 1 whent-0 sec. 2. Find the mathen atical expression for Ve and ic if the switch is moved to position 2 at t-10msec. 3. Find the mathematical expressions for Ve and ic if the switch is moved to position 3 at t-20nsec. 4. Plot the waveforms of the Ve and ic obtained from the parts 1 to 3. R 20 kfN 20 c0.05 µF ve R3 10 kn
Ex: For the circuit shown in the figure below: 1. Find the mathematical expression for the transient behaviour of the voltage across the capacitor as well as the current of the capacitor if the capacitor was initially uncharged aznd the switch is closed at position 1 whent-0 sec. 2. Find the mathen atical expression for Ve and ic if the switch is moved to position 2 at t-10msec. 3. Find the mathematical expressions for Ve and ic if the switch is moved to position 3 at t-20nsec. 4. Plot the waveforms of the Ve and ic obtained from the parts 1 to 3. R 20 kfN 20 c0.05 µF ve R3 10 kn
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Ex : For the circuit shown in the figure below : 1. Find the mathematical expression for the transient behaviour of the voltage across the capacitor as well as the current of the capacitor if the capacitor was initially uncharged and the switch is closed at position 1 when t - o sec . 2. Find the mathematical expression for Vc and is if the switch is moved to position 2 at t = 10msec . 3. Find the mathematical expressions for Vc and ic if the switch is moved to position 3 at t = 20msec 4. Plot the waveforms of the Vc and is obtained from the parts 1 to 3 . R ic 20 kΩ 20 E 12 V C 0.05 uF vc R , 310 ΚΩ T
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