2. Using the circuit below: a) Write all possible KCL equation and all possible KVL equation that can be derived from the circuit. Simplify all derived equations and arrange its variables in ascending order with the constant at the right side of the equation. Indicate the nodes and loops of each equation. b) Solve Is. Iz. Is. Ls and Is using Maxwell's Mesh Equations (assume COUNTER-CLOCKWISE rotation) c) Solve Va Vbe, and Var using Nodal Equations (use node 'e' as reference)
2. Using the circuit below: a) Write all possible KCL equation and all possible KVL equation that can be derived from the circuit. Simplify all derived equations and arrange its variables in ascending order with the constant at the right side of the equation. Indicate the nodes and loops of each equation. b) Solve Is. Iz. Is. Ls and Is using Maxwell's Mesh Equations (assume COUNTER-CLOCKWISE rotation) c) Solve Va Vbe, and Var using Nodal Equations (use node 'e' as reference)
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:2. Using the circuit below:
a) Write all possible KCL equation and all possible KVL equation that can be derived from the circuit. Simplify all derived
equations and arrange its variables in ascending order with the constant at the right side of the equation. Indicate the
nodes and loops of each equation.
b) Solve I. I2. Is, s and Is using Maxwell's Mesh Equations (assume COUNTER-CLOCKWISE rotation)
c) Solve Va Vbe, and Ver using Nodal Equations (use node 'e' as reference)
d) Solve Ia using Thevenin's Theorem.
e) Solve la using Norton's Theorem.
) Solve Ia and Is using purely Source Transformation Theorem ONLY.
8) Solve Iq using Super Position Theorem.
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