A parallel ac power circuit contains a resistor (R = 200 2), an inductor, and a capacitor. Knowing that the source voltage Es is equal to 100 V and that the total reactive power Q in the circuit is 70.0 var, calculate the circuit impedance Z. A series ac power circuit contains a resistor (R = 150), an inductor (XL = 250 M2), and a capacitor (Xc = 200 2). Knowing that the active power P dissipated in the circuit is equal to 100 W, calculate the apparent power S in the circuit.
A parallel ac power circuit contains a resistor (R = 200 2), an inductor, and a capacitor. Knowing that the source voltage Es is equal to 100 V and that the total reactive power Q in the circuit is 70.0 var, calculate the circuit impedance Z. A series ac power circuit contains a resistor (R = 150), an inductor (XL = 250 M2), and a capacitor (Xc = 200 2). Knowing that the active power P dissipated in the circuit is equal to 100 W, calculate the apparent power S in the circuit.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:A parallel ac power circuit contains a resistor (R = 2002), an inductor, and a
capacitor. Knowing that the source voltage Es is equal to 100 V and that the
total reactive power Q in the circuit is 70.0 var, calculate the circuit
impedance Z.
A series ac power circuit contains a
resistor (R = 150 M2), an
inductor (X₂ = 250 ), and a capacitor (Xc = 200 22). Knowing that the active
power P dissipated in the circuit is equal to 100 W, calculate the apparent
power S in the circuit.
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