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14. Find the currents in all the resistors in the circuit shown in Fig. 2.9-14 by applying Kirchhoff's laws with I₁ = 2 A, 1₂ = 5 A and I₂ = 2 A. [Hint: Write KCL equations at three nodes A, B and C in terms of voltage variables VAD VBD and VCD and resistance values.] A 4 5922 ww + 292 B WWW552 Ω R₂20212 ≤ (1) www 10 92 10 V Fig. 2.9-14 15. Solve the circuit shown in Fig. 2.9-15 and find the power consumed by the resistors, power delivered by the independent source and power delivered by the dependent source. M + 1Ω 5Ω C 522 3 Fig. 2.9-15 -0.2 VX

14. Find the currents in all the resistors in the circuit shown in Fig. 2.9-14 by applying Kirchhoff's laws with I₁ = 2 A, 1₂ = 5 A and I₂ = 2 A. [Hint: Write KCL equations at three nodes A, B and C in terms of voltage variables VAD VBD and VCD and resistance values.] A 4 5922 ww + 292 B WWW552 Ω R₂20212 ≤ (1) www 10 92 10 V Fig. 2.9-14 15. Solve the circuit shown in Fig. 2.9-15 and find the power consumed by the resistors, power delivered by the independent source and power delivered by the dependent source. M + 1Ω 5Ω C 522 3 Fig. 2.9-15 -0.2 VX

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
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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14. Find the currents in all the resistors in the circuit shown in Fig. 2.9-14 by applying Kirchhoff's laws with I₁ = 2 A, 1₂ = 5 A and I₂ = 2 A. [Hint: Write KCL equations at three nodes A, B and C in terms of voltage variables VAD VBD and VCD and resistance values.] A 4 5922 ww + 292 B WWW552 Ω R₂20212 ≤ (1) www 10 92 10 V Fig. 2.9-14 15. Solve the circuit shown in Fig. 2.9-15 and find the power consumed by the resistors, power delivered by the independent source and power delivered by the dependent source. M + 1Ω 5Ω C 522 3 Fig. 2.9-15 -0.2 VX
Transcribed Image Text:14. Find the currents in all the resistors in the circuit shown in Fig. 2.9-14 by applying Kirchhoff's laws with I₁ = 2 A, 1₂ = 5 A and I₂ = 2 A. [Hint: Write KCL equations at three nodes A, B and C in terms of voltage variables VAD VBD and VCD and resistance values.] A 4 5922 ww + 292 B WWW552 Ω R₂20212 ≤ (1) www 10 92 10 V Fig. 2.9-14 15. Solve the circuit shown in Fig. 2.9-15 and find the power consumed by the resistors, power delivered by the independent source and power delivered by the dependent source. M + 1Ω 5Ω C 522 3 Fig. 2.9-15 -0.2 VX
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