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V=2.0Vrms f=1.0 kHz Sine wave 0.01 µF R, = 10k0 Rez =1000; Rs1 =1000

V=2.0Vrms f=1.0 kHz Sine wave 0.01 µF R, = 10k0 Rez =1000; Rs1 =1000

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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1. Compute the current in each resistor using Ohm's law. 2. Draw the current phasors IR1, IC, and the total current IT. 3. Compute XC for the 1.0 kHz frequency. Using this value and that of the sense resistor, calculate the expected current, IC, through the сарacitor. 4. Using the value of XC for the 1.0 kHz frequency and the measured resistance of R1, find the total impedance, ZT, of the circuit. Remember that these impedances add like parallel resistors. Ignore the sense resistors for this calculation. 5. Using ZT and the applied voltage, VS, compute the total current, IT.
Transcribed Image Text:1. Compute the current in each resistor using Ohm's law. 2. Draw the current phasors IR1, IC, and the total current IT. 3. Compute XC for the 1.0 kHz frequency. Using this value and that of the sense resistor, calculate the expected current, IC, through the сарacitor. 4. Using the value of XC for the 1.0 kHz frequency and the measured resistance of R1, find the total impedance, ZT, of the circuit. Remember that these impedances add like parallel resistors. Ignore the sense resistors for this calculation. 5. Using ZT and the applied voltage, VS, compute the total current, IT.
Vs=2.0Vrms f=1.0 kHz Sine wave 0.01 uF R; = 10KQ. Rs2 =1000: Rg =1000 Figure 5.3
Transcribed Image Text:Vs=2.0Vrms f=1.0 kHz Sine wave 0.01 uF R; = 10KQ. Rs2 =1000: Rg =1000 Figure 5.3
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