For the circuit shown in figure 5, make use of superposition as solution method. 5.1) Calculate the voltage in volts at node Vo when the 3 V source is deactivated. 5.2) Calculate the voltage in volts at node V, when the 9 V source is deactivated. 5.3) Calculate the final voltage Vo in volts for the circuit. 4Ω 1Ω Vo 3 N 3 V 9 V
For the circuit shown in figure 5, make use of superposition as solution method. 5.1) Calculate the voltage in volts at node Vo when the 3 V source is deactivated. 5.2) Calculate the voltage in volts at node V, when the 9 V source is deactivated. 5.3) Calculate the final voltage Vo in volts for the circuit. 4Ω 1Ω Vo 3 N 3 V 9 V
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:QUESTION 5
For
the circuit shown in figure 5, make use of superposition as solution method.
5.1)
Calculate the voltage
in volts at node Vo when the 3 V source is deactivated.
5.2)
Calculate the voltage
in volts at node Vo when the 9 V source is deactivated.
5.3)
Calculate the final voltage Vo in volts for the
circuit.
4Ω
1Ω
Vo
3Ω
3 V
9 V
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