The current in Fig. 1P.1 has already reached a steady value when S is closed. Derive an expression for the current through L after the closing of S. If V= 500 V, L= 20 mll and R=30n, calculate the voltage across the inductance I ms after the switch S is closed in Fig. 1P.1.
The current in Fig. 1P.1 has already reached a steady value when S is closed. Derive an expression for the current through L after the closing of S. If V= 500 V, L= 20 mll and R=30n, calculate the voltage across the inductance I ms after the switch S is closed in Fig. 1P.1.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question 1.2 in the attached file.
Transcribed Image Text:Fig. 1P,1.
The current in Fig. 1P.1 has already reached a steady value when S is
closed. Derive an expression for the current through L after the closing
of S.
1.2 If V 500 V, L = 20 mlH and R 30 , calculate the voltage across the
inductance I ms after the switch S is closed irı Fig. 1P.1.
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