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ur results from HLab3 in week 8 (page 20 as a referenc d in HLab3), sketch the waveforms of the voltage acra

ur results from HLab3 in week 8 (page 20 as a referenc d in HLab3), sketch the waveforms of the voltage acra

Introductory Circuit Analysis (13th Edition)
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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Consider a series RL circuit with R = 18 N and L= 470 pH. Calculate the circuit's time constant. • Using your results from HLab3 in week 8 (page 20 as a reference; different R and L values were used in HLab3), sketch the waveforms of the voltage across the resistor and inductor when a 3.83 kHz square wave with an amplitude t1 V (equivalently 2Vpp) is applied to the input of the series RL circuit. Use the graph paper provided on the following page. Clearly label the axes. I ont R= 18 2, L= 470 pH
Transcribed Image Text:Consider a series RL circuit with R = 18 N and L= 470 pH. Calculate the circuit's time constant. • Using your results from HLab3 in week 8 (page 20 as a reference; different R and L values were used in HLab3), sketch the waveforms of the voltage across the resistor and inductor when a 3.83 kHz square wave with an amplitude t1 V (equivalently 2Vpp) is applied to the input of the series RL circuit. Use the graph paper provided on the following page. Clearly label the axes. I ont R= 18 2, L= 470 pH
Consider a series RC circuit with R = 2 k2 and C =1 µF. %3D Calculate the circuit's time constant. • Using your results from HLab3 in week 8 (page 17; the exact same values for R and C were used in HLab3), sketch the waveforms of the voltage across the capacitor and resistor when a 50 Hz square wave with an amplitude of 1 V (equivalently 2Vpp) is applied to the input of the series RC circuit. Use the graph paper provided on the following page. Clearly label the axes. R=2 k2, C=1 pF
Transcribed Image Text:Consider a series RC circuit with R = 2 k2 and C =1 µF. %3D Calculate the circuit's time constant. • Using your results from HLab3 in week 8 (page 17; the exact same values for R and C were used in HLab3), sketch the waveforms of the voltage across the capacitor and resistor when a 50 Hz square wave with an amplitude of 1 V (equivalently 2Vpp) is applied to the input of the series RC circuit. Use the graph paper provided on the following page. Clearly label the axes. R=2 k2, C=1 pF
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