3. For the circuit shown, determine the circuit impedance, all the currents, voltage drops and powers if the source is 7 volts AC: j 200 -j 300 Answers: mA L 0 VL ° mA L VL__° 100 Circuit Impedance QL° Total Current, I₁ = mA L_° Current flow through the inductor, I₁ = Voltage drop across the inductor, V₁ = Current flow through the resistor, IR = Voltage drop across the resistor, VR = Current flow through the capacitor, Ic = Voltage drop across the capacitor, Vc = Active Power, P = mW Inductive Reactive Power, QL Capacitive Reactive Power, Qc = Apparent Power, S = mVA L 0 mVAR 0 mA Lº VL_° mVAR
3. For the circuit shown, determine the circuit impedance, all the currents, voltage drops and powers if the source is 7 volts AC: j 200 -j 300 Answers: mA L 0 VL ° mA L VL__° 100 Circuit Impedance QL° Total Current, I₁ = mA L_° Current flow through the inductor, I₁ = Voltage drop across the inductor, V₁ = Current flow through the resistor, IR = Voltage drop across the resistor, VR = Current flow through the capacitor, Ic = Voltage drop across the capacitor, Vc = Active Power, P = mW Inductive Reactive Power, QL Capacitive Reactive Power, Qc = Apparent Power, S = mVA L 0 mVAR 0 mA Lº VL_° mVAR
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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Question
Transcribed Image Text:3. For the circuit shown, determine the circuit impedance, all the
currents, voltage drops and powers if the source is 7 volts AC:
j 200
-j 300
Answers:
mA L
VL °
mA L
VL_°
100
M
Circuit Impedance
SLO
Total Current, I₁ =
mA L_°
Current flow through the inductor, I₁ =
Voltage drop across the inductor, V₁ =
Current flow through the resistor, IR =
Voltage drop across the resistor, VR =
Current flow through the capacitor, Ic =
Voltage drop across the capacitor, Vc =
Active Power, P =
mW
Inductive Reactive Power, QL =
Capacitive Reactive Power, Qc =
Apparent Power, S =
mVA L
0
mVAR
0
mA L__°
VL__°
mVAR
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