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4. Fina vx a) using Thevenin's theorem. b) Using Norton's theorem ANSWER: v₂ = -2/17 V 10 V ΤΩ wwww 2 A 292 51, 4

4. Fina vx a) using Thevenin's theorem. b) Using Norton's theorem ANSWER: v₂ = -2/17 V 10 V ΤΩ wwww 2 A 292 51, 4

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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Pls show solution in a paper if possible thank you . Answers is already given but i need the solution thank you very much i need it after 2 hrs

4. Fina vx a) using Thevenin's theorem. b) Using Norton's theorem ANSWER: v₂ = -2/17 V 16 V ix 292 www ANSWER: R₂ = 30 Pmax=0.75 W 4 A 10 V 5. Find R₁ and the maximum power to the load R₁ if maximum power transfer condition is met for the circuit below. 10ix 0.9 A 192 www 3 Ω 192 ANSWERA: ₂ = 3 A, v = 3 V,w₁ = 1.125/.Wc = 9/ + 2 A 6. Determine ve, it, and the energy stored in the capacitor and inductor in the circuit shown below under dc conditions. iL 0.25 H www 302 292 51x + RL 492 2 F
Transcribed Image Text:4. Fina vx a) using Thevenin's theorem. b) Using Norton's theorem ANSWER: v₂ = -2/17 V 16 V ix 292 www ANSWER: R₂ = 30 Pmax=0.75 W 4 A 10 V 5. Find R₁ and the maximum power to the load R₁ if maximum power transfer condition is met for the circuit below. 10ix 0.9 A 192 www 3 Ω 192 ANSWERA: ₂ = 3 A, v = 3 V,w₁ = 1.125/.Wc = 9/ + 2 A 6. Determine ve, it, and the energy stored in the capacitor and inductor in the circuit shown below under dc conditions. iL 0.25 H www 302 292 51x + RL 492 2 F
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