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(a) For the circuit shown in Figure 4, use any method to prove that the total power dissipated is equal to the total power generated. 3. 9Ω 1N 15 V (t 고)21V 11 V Figure 4: Circuit for problem 3a

(a) For the circuit shown in Figure 4, use any method to prove that the total power dissipated is equal to the total power generated. 3. 9Ω 1N 15 V (t 고)21V 11 V Figure 4: Circuit for problem 3a

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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The question is illustrated in the figure.

(a) For the circuit shown in Figure 4, use any method to prove that the total power dissipated is equal to the total power generated. 3. iN 15 V(+ 21 V 11 V Figure 4: Circuit for problem 3a (b) When a 15 kN resistor is connected to the output terminals ab of a Linear resistive circuit consisting of independent and dependent sources, Vab = 45 V (See Figure 5). The output voltage Vab is dropped to 25 V when a 5 kN resistor is connected at ab. Find the Norton equivalent of this network with respect to terminals ab. а A network of resistors, independent and depen- dent voltage and current sources. Figure 5
Transcribed Image Text:(a) For the circuit shown in Figure 4, use any method to prove that the total power dissipated is equal to the total power generated. 3. iN 15 V(+ 21 V 11 V Figure 4: Circuit for problem 3a (b) When a 15 kN resistor is connected to the output terminals ab of a Linear resistive circuit consisting of independent and dependent sources, Vab = 45 V (See Figure 5). The output voltage Vab is dropped to 25 V when a 5 kN resistor is connected at ab. Find the Norton equivalent of this network with respect to terminals ab. а A network of resistors, independent and depen- dent voltage and current sources. Figure 5
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