1. Introduction

• Preface
• Topics
• Notations

2. Basic Concepts

• Currents and voltages
• Linear circuits
• Linear components
• Loops and nodes
• Series and parallel
• R, L & C combinations
• V & I combinations
• Power and energy

3. Simple Circuits

• Ohm's law
• Kirchhoff's current law
• Kirchhoff's voltage law
• Single loop circuits
• Single node-pair circuits
• Voltage division
• Current division

4. Nodal and Mesh Analysis

• Nodal analysis
• Mesh analysis

5. Additional Analysis Techniques

• Superposition
• Source transformation
• The $V_{test}/I_{test}$ method
• Norton equivalent
• Thévenin equivalent
• Max power transfer

6. AC Analysis

• Introduction
• AC analysis methods
• AC power
• Power factor correction
• Resonance in RLC circuits

7. Magnetically Coupled Circuits

• Mutual inductance
• Ideal transformers

8. Polyphase Systems

• Introduction
• ∆-Y transformations
• Source/load connections
• Total power and pf

9. Operational Amplifiers

• Ideal OpAmp
• Non-ideal OpAmp

10. Laplace Transforms

• Introduction
• Direct transform
• Inverse transform

11. Time-Dependent Circuits

• Introduction
• First-order transients
• Nodal analysis
• Mesh analysis
• Laplace transforms
• Additional techniques

12. Two-Port Networks

• Introduction
• y- z- h- t- g- t'
• Conversion formulas
• AC filters
• Bode plots

Appendix

• Complex numbers
• Linear systems of eqs.