Determine the following for the network below.XcE = 50 V 20⁰+f = 60 HzR3 ΩFind the average power delivered to each element.PR=unitsPc =PL=units5ΩunitsXLvoo9Ω Find the reactive power for each element.unitsQRQc=QL||ST=unitsFind the total complex power in rectangular and polar formST=Find the total apparent power|ST|=unitsuntis2unitsUsign only power quantaties determine the power factorpf =lagging or leadingOn your hand written work sketch the power triangleO+junitsunits

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Answered: Determine the following for the network…

Determine the following for the network below. Xc E = 50 V 20° + f = 60 Hz R ww 3 Ω Find the average power delivered to each element. PR= units Pc = P₁ = units 5Ω units voo 9Ω

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.2P: Convert the following instantaneous currents to phasors, using cos(t) as the reference. Give your...

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Question

Determine the following for the network below.
Xc
E = 50 V 20⁰
+
f = 60 Hz
R
3 Ω
Find the average power delivered to each element.
PR=
units
Pc =
PL=
units
5Ω
units
XL
voo
9Ω

Find the reactive power for each element.
units
QR
Qc=
QL
||
ST=
units
Find the total complex power in rectangular and polar form
ST=
Find the total apparent power
|ST|=
units
untis
2
units
Usign only power quantaties determine the power factor
pf =
lagging or leading
On your hand written work sketch the power triangle
O
+j
units
units

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Step 1: Determine the Unknown variables given in the question:

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Step 2: Find total impedance of the circuit:

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Step 3: Find current through the circuit:

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Step 4: Find average power delivered to resistance and capacitance:

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Step 5: Find average power delivered to inductance:

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Step 6: Find reactive power delivered to resistor and capacitor:

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Step 7: Find reactive power delivered to inductor:

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Step 8: Find total complex power and apparent power:

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Step 9: Find power factor of the circuit:

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