Fundamentals of Electric Circuits
Author:Charles Alexander, Matthew Sadiku
Edition:5th Edition
Core principles of electrical engineering are introduced through the analysis of electric circuits and their behavior. It covers foundational concepts such as voltage, current, resistance, circuit laws, operational amplifiers, AC and DC analysis, capacitors, inductors, frequency response, and transforms including Laplace and Fourier methods, providing a strong mathematical and practical framework for understanding modern electrical systems and circuit design.
Chapters
- Chapter 1: Basic Concepts→
- Chapter 2: Basic Laws→
- Chapter 3: Methods of Analysis→
- Chapter 4: Circuit Theorems→
- Chapter 5: Operational Amplifiers→
- Chapter 6: Capacitors and Inductors→
- Chapter 7: First-Order Circuits→
- Chapter 8: Second-Order Circuits→
- Chapter 9: Sinusoids and Phasors→
- Chapter 10: Sinusoidal Steady-State Analysis→
- Chapter 11: AC Power Analysis→
- Chapter 12: Three-Phase Circuits→
- Chapter 13: Magnetically Coupled Circuits→
- Chapter 14: Frequency Response→
- Chapter 15: Introduction to the Laplace Transform→
- Chapter 16: Applications of the Laplace Transform→
- Chapter 17: The Fourier Series→
- Chapter 18: Fourier Transform→
- Chapter 19: Two-Port Networks→
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