For R1=50, R2=60, R3=40, R4=10, R5=40, V1=45 V, V2=30 V & I1=9 A in the circuit shown below, apply source transformation to find Vx (in volt) V1 R1 Oa. -28.405797101449 Ob. 14.202898550725 Oc. -14.202898550725 Od. -42.608695652174 where V = R3 ww V R2 where R = R5 The circuit after source transformation will be as follows: R3 R4 V2 The circuit after source transformation will be as follows: R3 ww

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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For R1=50, R2=60, R3=40, R4=10, R5=40, V1=45 V, V2=30 V & I1=9 A in the circuit shown below, apply
source transformation to find Vx (in volt)
V1
R1
Oa. -28.405797101449
Ob. 14.202898550725
Oc. -14.202898550725
Od. -42.608695652174
where V =
R3
ww
V
R2
where R =
R5
The circuit after source transformation will be as follows:
R3
R4
V2
The circuit after source transformation will be as follows:
R3
ww
Transcribed Image Text:For R1=50, R2=60, R3=40, R4=10, R5=40, V1=45 V, V2=30 V & I1=9 A in the circuit shown below, apply source transformation to find Vx (in volt) V1 R1 Oa. -28.405797101449 Ob. 14.202898550725 Oc. -14.202898550725 Od. -42.608695652174 where V = R3 ww V R2 where R = R5 The circuit after source transformation will be as follows: R3 R4 V2 The circuit after source transformation will be as follows: R3 ww
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