e + 4₁₁ + UR - www 30 Ω moo L = 0.4 H + Uc H C = 4 μF e = √2(20) sin(3771 +40°) a. Determine I, VR, and Vc in phasor form. b. Calculate the total power factor, and indicate whether it is leading or lagging. c. Calculate the average power delivered to the circuit. d. Draw the impedance diagram. e. Draw the phasor diagram of the voltages E, VR, and Vc, and the current I. f. Find the voltages VR and Vc using the voltage divider rule, and compare them with the results of part (a) above. Draw the equivalent series circuit of the above as far as the total impedance and the current i are concerned. g. Q Search hp

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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3
$
+ UR
101
30 Ω
4
e = √2(20) sin(3771 +40°)
a. Determine I, VR, and Vc in phasor form.
b. Calculate the total power factor, and indicate whether it
is leading or lagging.
c.
Calculate the average power delivered to the circuit.
Draw the impedance diagram.
d.
e. Draw the phasor diagram of the voltages E, VR, and Vc,
and the current I.
f.
Find the voltages V and Ve using the voltage divider
rule, and compare them with the results of part (a) above.
Draw the equivalent series circuit of the above as far as
the total impedance and the current i are concerned.
g.
moo
L = 0.4 H
%
5
+ Uc
Q Search
C = 4 μF
&
Transcribed Image Text:3 $ + UR 101 30 Ω 4 e = √2(20) sin(3771 +40°) a. Determine I, VR, and Vc in phasor form. b. Calculate the total power factor, and indicate whether it is leading or lagging. c. Calculate the average power delivered to the circuit. Draw the impedance diagram. d. e. Draw the phasor diagram of the voltages E, VR, and Vc, and the current I. f. Find the voltages V and Ve using the voltage divider rule, and compare them with the results of part (a) above. Draw the equivalent series circuit of the above as far as the total impedance and the current i are concerned. g. moo L = 0.4 H % 5 + Uc Q Search C = 4 μF &
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