15. For the circuit in Fig. 15.92: a. Find the total impedance Z, in polar form. b. Draw the impedance diagram. c. Find the current I and the voltages VR and V₁ in phasor form. d. Draw the phasor diagram of the voltages E, VR, and VL, and the current I. f. e. Verify Kirchhoff's voltage law around the closed loop. Find the average power delivered to the circuit. Find the power factor of the circuit, and indicate whether it is leading or lagging. g. Find
15. For the circuit in Fig. 15.92: a. Find the total impedance Z, in polar form. b. Draw the impedance diagram. c. Find the current I and the voltages VR and V₁ in phasor form. d. Draw the phasor diagram of the voltages E, VR, and VL, and the current I. f. e. Verify Kirchhoff's voltage law around the closed loop. Find the average power delivered to the circuit. Find the power factor of the circuit, and indicate whether it is leading or lagging. g. Find
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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I need help working on this problem. The circuit isn't fully understandable for me to solve this equation for AC Electricity.
Transcribed Image Text:15. For the circuit in Fig. 15.92:
a. Find the total impedance Z, in polar form.
b. Draw the impedance diagram.
c. Find the current I and the voltages VR and V, in phasor
form.
d. Draw the phasor diagram of the voltages E, VR, and VL,
and the current I.
e. Verify Kirchhoff's voltage law around the closed loop.
f. Find the average power delivered to the circuit.
g. Find the power factor of the circuit, and indicate whether
it is leading or lagging.
h. Find the sinusoidal expressions for the voltages and cur-
rent if the frequency is 60 Hz.
i. Plot the waveforms for the voltages and current on the
same set of axes.
+
41
R = 80
www
VR
E = 100 V Z 0°
ZT
+
XL = 60
voo
+ VL
1
e=
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