3. For the circuit in the figure, complete: a) The total impedance in polar form. b) The value of the capacitor in microfarads and the inductor in henries c) The current I and the voltages VR, VL and Vc d) Verify Kirchhoff's voltage law. e) The power of the circuit. f) The power factor of the circuit e=70.7 sin 377t ZT R = 402 ww + UR X = 60 Xc = 100 000 +UL ж + UC
3. For the circuit in the figure, complete: a) The total impedance in polar form. b) The value of the capacitor in microfarads and the inductor in henries c) The current I and the voltages VR, VL and Vc d) Verify Kirchhoff's voltage law. e) The power of the circuit. f) The power factor of the circuit e=70.7 sin 377t ZT R = 402 ww + UR X = 60 Xc = 100 000 +UL ж + UC
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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PLEASE IT IS ESSENTIAL THAT I DO THE EXERCISE COMPLETELY, OTHERWISE IT IS ONLY AN INCOMPLETE SOLUTION THAT WILL NOT HELP ME IN MY STUDY
I NEED PART D, E AND F
PART A B AND C; https://www.bartleby.com/questions-and-answers/3.-for-the-circuit-in-the-figure-complete-a-the-total-impedance-in-polar-form.-b-the-value-of-the-ca/01986cf6-948c-47e9-8b45-32c20e12b278
Transcribed Image Text:デジタル形式で段階的に解決 ありがとう!!
SOLVE STEP BY STEP IN DIGITAL FORMAT
3. For the circuit in the figure, complete:
a) The total impedance in polar form.
b) The value of the capacitor in microfarads and the inductor in henries
c) The current I and the voltages VR, VL and Vc
d) Verify Kirchhoff's voltage law.
e) The power of the circuit.
f) The power factor of the circuit
e = 70.7 sin 377t
+
www
+ UR -
R = 40
X = 60 Xc = 100
000
HE
+4-
VC
ZT
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