ww R1 ↑ 11 R2 + V2 www Figure 5: A circuit R3 M R4 Ic a Given the circuit in figure 5 with component values R₁ = 60 №2, R₂ = 20 ≤, R3 = 80 N, R4 = 40 2, 1₁ = 4 A, V₂ = 160 lc V. The current Ic is noted on the circuit. Node a and bare denoted on the circuit. You are free to use any methods explained in class to derive the Thevenin equivalent circuit between node a and b.
ww R1 ↑ 11 R2 + V2 www Figure 5: A circuit R3 M R4 Ic a Given the circuit in figure 5 with component values R₁ = 60 №2, R₂ = 20 ≤, R3 = 80 N, R4 = 40 2, 1₁ = 4 A, V₂ = 160 lc V. The current Ic is noted on the circuit. Node a and bare denoted on the circuit. You are free to use any methods explained in class to derive the Thevenin equivalent circuit between node a and b.
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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if you could do this using a couple different methods that'd help a lot for my understanding
Transcribed Image Text:M
R1
↑
11
R2
www
V2
Figure 5: A circuit
R3
W
R4
Ic
Given the circuit in figure 5 with component values R₁ = 60 2, R₂ = 20, R3 = 80, R4 = 40 2,
I₁ = 4 A, V₂ = 160 lc V. The current Ic is noted on the circuit. Node a and bare denoted on the
circuit. You are free to use any methods explained in class to derive the Thevenin equivalent
circuit between node a and b.
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