4. Consider the circuit shown below. 12 VC 402 60 3A Determine the current through the 60 resistance by making use of (a) node-voltage analysis, (b) superposition theorem, and (c) Thevenin's theorem (to replace the circuit seen by the 60 resistor).

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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4.
5.
6.
Consider the circuit shown below.
12 V
Consider the circuit shown below.
10 V
Determine the current through the 60 resistance by making use of
(a) node-voltage analysis,
(b) superposition theorem, and
(c) Thevenin's theorem (to replace the circuit seen by the 60 resistor).
30
302
60
2V
3 A
102
60
Determine the current through the 10V source by making use of
(a)
superposition theorem, and
(b) Thevenin's theorem (to replace the circuit seen by the 10V source).
Determine the current through the 2V source in the circuit shown.
20
15 0
3 A
3A
Transcribed Image Text:4. 5. 6. Consider the circuit shown below. 12 V Consider the circuit shown below. 10 V Determine the current through the 60 resistance by making use of (a) node-voltage analysis, (b) superposition theorem, and (c) Thevenin's theorem (to replace the circuit seen by the 60 resistor). 30 302 60 2V 3 A 102 60 Determine the current through the 10V source by making use of (a) superposition theorem, and (b) Thevenin's theorem (to replace the circuit seen by the 10V source). Determine the current through the 2V source in the circuit shown. 20 15 0 3 A 3A
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