Given Rx = 6 Ω, use node-voltage analysis to compute the current ix. 100 V + Μ 8 Ω VI Μ 4Ω ix Rx V2 • 3 Ω Μ 8 Α 10 Ω 13 5Ω

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Given Rx = 6 Ω, use node-voltage analysis to compute the current ix.
100 V
+
Μ
8 Ω
V1
ix
mi
Rx
4Ω
V2
Μ
3 Ω
8 Α
10 Ω
V3
5Ω
Transcribed Image Text:Given Rx = 6 Ω, use node-voltage analysis to compute the current ix. 100 V + Μ 8 Ω V1 ix mi Rx 4Ω V2 Μ 3 Ω 8 Α 10 Ω V3 5Ω
** place positive/negative numerical values or zero in the blanks; do not use "/" for fractions **
a. Simplify the nodal equation for Node 1. Then, record the equation in the form below (HINT: multiply by 24 & collect like terms).
U₁ + (
) U₂ + (
b. Simplify the nodal equation for Node 2. Then, record the equation in the form below (HINT: multiply by 30 & collect like terms).
U₁ + (
U₂ + (
) v₁ + (
V3 = 300
c. Simplify the nodal equation for Node 3. Then, record the equation in the form below (HINT: multiply by 10 & collect like terms).
) 0₂ + (
U2
d. What is the value of current ix (in Amps)?
ix =
A
V3 = 240
V3 = -80
Transcribed Image Text:** place positive/negative numerical values or zero in the blanks; do not use "/" for fractions ** a. Simplify the nodal equation for Node 1. Then, record the equation in the form below (HINT: multiply by 24 & collect like terms). U₁ + ( ) U₂ + ( b. Simplify the nodal equation for Node 2. Then, record the equation in the form below (HINT: multiply by 30 & collect like terms). U₁ + ( U₂ + ( ) v₁ + ( V3 = 300 c. Simplify the nodal equation for Node 3. Then, record the equation in the form below (HINT: multiply by 10 & collect like terms). ) 0₂ + ( U2 d. What is the value of current ix (in Amps)? ix = A V3 = 240 V3 = -80
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