1. Write all the possible KCL and KVL equations that can be derived from the circuit belo Simplify all derived equations and arrange its variables in ascending order with the const at the right side of the equation. 2. Solve I1, I2, I3, I4, and Is using Maxwell's Mesh Equations (use the indicated Me currents – IA, IB, and Ic) 3. Solve Vab, Vbe, and Vea using Nodal Equations (use node 'c' as reference) 4. Solve In using Thevenin's Theorem. 5. Solve Iz using Norton's Theorem. 6. Solve I3 using purely Source Transformation Theorem ONLY. 7. Solve Is using Superposition Theorem. a b 20 20V 14 Is lc 60 30 IB 6A 40

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4 decimal places please

 

1. Write all the possible KCL and KVL equations that can be derived from the circuit below.
Simplify all derived equations and arrange its variables in ascending order with the constant
at the right side of the equation.
2. Solve I1, I2, I3, I4, and Is using Maxwell's Mesh Equations (use the indicated Mesh
currents – IA, IB, and Ic)
3. Solve Vab, Vbe, and Vea using Nodal Equations (use node 'c' as reference)
4. Solve I using Thevenin's Theorem.
5. Solve Iz using Norton's Theorem.
6. Solve Iz using purely Source Transformation Theorem ONLY.
7. Solve Is using Superposition Theorem.
a
b
20
20V
lA
I2
Is
Ic
60
30
IB
6A
40
I3
15V
Transcribed Image Text:1. Write all the possible KCL and KVL equations that can be derived from the circuit below. Simplify all derived equations and arrange its variables in ascending order with the constant at the right side of the equation. 2. Solve I1, I2, I3, I4, and Is using Maxwell's Mesh Equations (use the indicated Mesh currents – IA, IB, and Ic) 3. Solve Vab, Vbe, and Vea using Nodal Equations (use node 'c' as reference) 4. Solve I using Thevenin's Theorem. 5. Solve Iz using Norton's Theorem. 6. Solve Iz using purely Source Transformation Theorem ONLY. 7. Solve Is using Superposition Theorem. a b 20 20V lA I2 Is Ic 60 30 IB 6A 40 I3 15V
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