1 = 4 A, 12 = 1.6 A, R₁ = 3.8 Q2, R₂ = 7.2 Q, R3 = 2.5 Q and R4 = 3.4 Q. R₁ R₂ V R3 R4 1₂ First make current source /2 open circuit. This puts R2 + R3 + R4 in parallel with R₁. Calculate the total resistance of this combination.
1 = 4 A, 12 = 1.6 A, R₁ = 3.8 Q2, R₂ = 7.2 Q, R3 = 2.5 Q and R4 = 3.4 Q. R₁ R₂ V R3 R4 1₂ First make current source /2 open circuit. This puts R2 + R3 + R4 in parallel with R₁. Calculate the total resistance of this combination.
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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Transcribed Image Text:O
Thi
The circuit below contains 2 current sources. Therefore, it is necessary to use superpositio
to calculate the voltage V.
11 = 4 A, 12 = 1.6 A, R₁ = 3.8 Q, R₂ = 7.2 Q, R3 = 2.5 Q and R4 = 3.4 Q.
I₁
R₁
R
R₂
V₁
V
First make current source /2 open circuit. This puts R₂ + R3 + R4 in parallel with R₁.
Calculate the total resistance of this combination.
R₂
TOTISE
se... +
When current source /2 is open circuit, the circuit becomes:
R₂
R3
R₁
RA
1₂
V₁
R(R₂+R+R)
R₁ = 3.8 Q, R₂ = 7.2 0, R3 = 2.5 Q, R4 = 3.4 Q2, and /₁ = 4 A.
The voltage V₁ across the parallel resistors can be calculated by Ohm's law because current
/₁ flows through the parallel resistors.
Calculate the voltage V₁.
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