About the circuit below: a) How long does it take for the current in the inductor to reach 40% of its maximum value? b) After 1 time constant in the closed position, the switch is opened at t = 0. Find the current and voltage in the inductor when t>0. c) Sketch the behavior (waveforms) of voltage and current in the inductor and resistor R2 in the storage and discharge (decay) phase of the inductor. R1 = R5 = 55k Ω R2 = R4 = 20k Ω R3 = R6 = 25k Ω V = 2500 v L1 = 50 mH
About the circuit below: a) How long does it take for the current in the inductor to reach 40% of its maximum value? b) After 1 time constant in the closed position, the switch is opened at t = 0. Find the current and voltage in the inductor when t>0. c) Sketch the behavior (waveforms) of voltage and current in the inductor and resistor R2 in the storage and discharge (decay) phase of the inductor. R1 = R5 = 55k Ω R2 = R4 = 20k Ω R3 = R6 = 25k Ω V = 2500 v L1 = 50 mH
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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About the circuit below:
a) How long does it take for the current in the inductor to reach 40% of its maximum value?
b) After 1 time constant in the closed position, the switch is opened at t = 0. Find the current and voltage in the inductor when t>0.
c) Sketch the behavior (waveforms) of voltage and current in the inductor and resistor R2 in the storage and discharge (decay) phase of the inductor.
R1 = R5 = 55k Ω
R2 = R4 = 20k Ω
R3 = R6 = 25k Ω
V = 2500 v
L1 = 50 mH
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