Electric Circuits - Luiz de Queiroz Orsini

Electric Circuits - Luiz de Queiroz Orsini

Electric Circuits: A Comprehensive Guide to Circuit Analysis and Design

Introduction

Electric circuits are the foundation of modern technology. They are used in everything from simple devices like flashlights to complex systems like computers and airplanes. Understanding how electric circuits work is essential for anyone who wants to work in the field of electrical engineering.

What You'll Learn from This Book

This book provides a comprehensive introduction to electric circuits. It covers everything from basic concepts like Ohm's law and Kirchhoff's laws to more advanced topics like AC circuits and transformers. By the end of this book, you will be able to:

  • Analyze and design electric circuits
  • Troubleshoot electrical problems
  • Build your own electronic devices

Why You Should Read This Book

This book is perfect for anyone who wants to learn more about electric circuits. It is written in a clear and concise style that makes it easy to understand, even for beginners. The book is also packed with illustrations and examples that help to illustrate the concepts that are being discussed.

Who This Book Is For

This book is ideal for:

  • Students who are studying electrical engineering
  • Engineers who want to brush up on their knowledge of electric circuits
  • Hobbyists who are interested in building their own electronic devices

Get Your Copy Today!

Don't wait any longer to learn more about electric circuits. Order your copy of this book today and start your journey to becoming an electrical engineering expert!

Table of Contents

  • Chapter 1: Basic Concepts
    • Electric charge and current
    • Voltage and resistance
    • Ohm's law
    • Kirchhoff's laws
  • Chapter 2: DC Circuits
    • Series circuits
    • Parallel circuits
    • Combination circuits
    • Voltage dividers
    • Current dividers
  • Chapter 3: AC Circuits
    • Sinusoidal waveforms
    • Capacitors
    • Inductors
    • Transformers
    • AC power
  • Chapter 4: Circuit Analysis
    • Nodal analysis
    • Mesh analysis
    • Thevenin's theorem
    • Norton's theorem
    • Maximum power transfer theorem
  • Chapter 5: Circuit Design
    • Choosing components
    • Layout and wiring
    • Testing and troubleshooting
  • Chapter 6: Applications of Electric Circuits
    • Power distribution
    • Lighting
    • Motors
    • Generators
    • Electronics

Index