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Introduction to Electrical Circuit Analysis 1st Edition by Ozgur Ergul 1119284937 9781119284932

Name: Introduction to Electrical Circuit Analysis 1st Edition by Ozgur Ergul 1119284937 9781119284932
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Authors:Ozgur Ergul , Series:Electrical Engineering [58] , Tags:Science; Energy; Technology & Engineering; Electrical , Author sort:Ergul, Ozgur , Ids:9781119284932 , Languages:Languages:eng , Published:Published:Jun 2017 , Publisher:John Wiley & Sons , Comments:Comments:A concise and original presentation of the fundamentals for â€˜new to the subjectâ€™ electrical engineers This book has been written for students on electrical engineering courses who donâ€™t necessarily possess prior knowledge of electrical circuits. Based on the authorâ€™s own teaching experience, it covers the analysis of simple electrical circuits consisting of a few essential components using fundamental and well-known methods and techniques. Although the above content has been included in other circuit analysis books, this one aims at teaching young engineers not only from electrical and electronics engineering, but also from other areas, such as mechanical engineering, aerospace engineering, mining engineering, and chemical engineering, with unique pedagogical features such as a puzzle-like approach and negative-case examples (such as the unique â€œWhen Things Go Wrongâ€¦â€ section at the end of each chapter). Believing that the traditional texts in this area can be overwhelming for beginners, the author approaches his subject by providing numerous examples for the student to solve and practice before learning more complicated components and circuits. These exercises and problems will provide instructors with in-class activities and tutorials, thus establishing this book as the perfect complement to the more traditional texts. All examples and problems contain detailed analysis of various circuits, and are solved using a â€˜recipeâ€™ approach, providing a code that motivates students to decode and apply to real-life engineering scenarios Covers the basic topics of resistors, voltage and current sources, capacitors and inductors, Ohmâ€™s and Kirchhoffâ€™s Laws, nodal and mesh analysis, black-box approach, and Thevenin/Norton equivalent circuits for both DC and AC cases in transient and steady states Aims to stimulate interest and discussion in the basics, before moving on to more modern circuits with higher-level components Includes more than 130 solved examples and 120 detailed exercises with supplementary solutions Accompanying website to provide supplementary materials www.wiley.com/go/ergul4412

SKU: EB-17632 Category: eBook EPUB Tags: Analysis, Electrical, Introduction, Ozgur Ergul

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ISBN 10: 1119284937

ISBN 13: 9781119284932

Author: Ozgur Ergul

This book has been written for students on electrical engineering courses who don’t necessarily possess prior knowledge of electrical circuits. Based on the author’s own teaching experience, it covers the analysis of simple electrical circuits consisting of a few essential components using fundamental and well-known methods and techniques. Although the above content has been included in other circuit analysis books, this one aims at teaching young engineers not only from electrical and electronics engineering, but also from other areas, such as mechanical engineering, aerospace engineering, mining engineering, and chemical engineering, with unique pedagogical features such as a puzzle-like approach and negative-case examples (such as the unique “When Things Go Wrong…” section at the end of each chapter). Believing that the traditional texts in this area can be overwhelming for beginners, the author approaches his subject by providing numerous examples for the student to solve and practice before learning more complicated components and circuits. These exercises and problems will provide instructors with in-class activities and tutorials, thus establishing this book as the perfect complement to the more traditional texts.

All examples and problems contain detailed analysis of various circuits, and are solved using a ‘recipe’ approach, providing a code that motivates students to decode and apply to real-life engineering scenarios
Covers the basic topics of resistors, voltage and current sources, capacitors and inductors, Ohm’s and Kirchhoff’s Laws, nodal and mesh analysis, black-box approach, and Thevenin/Norton equivalent circuits for both DC and AC cases in transient and steady states
Aims to stimulate interest and discussion in the basics, before moving on to more modern circuits with higher-level components
Includes more than 130 solved examples and 120 detailed exercises with supplementary solutions

Introduction to Electrical Circuit Analysis 1st Table of contents:

Chapter 1: Introduction

1.1 Circuits and Important Quantities

1.2 Resistance and Resistors

1.3 Independent Sources

1.4 Dependent Sources

1.5 Basic Connections of Components

1.6 Limitations in Circuit Analysis

1.7 What You Need to Know before You Continue

Chapter 2: Basic Tools: Kirchhoff’s Laws

2.1 Kirchhoff’s Current Law

2.2 Kirchhoff’s Voltage Law

2.3 When Things Go Wrong with KCL and KVL

2.4 Series and Parallel Connections of Resistors

2.5 When Things Go Wrong with Series/Parallel Resistors

2.6 What You Need to Know before You Continue

Chapter 3: Analysis of Resistive Networks: Nodal Analysis

3.1 Application of Nodal Analysis

3.2 Concept of Supernode

3.3 Circuits with Multiple Independent Voltage Sources

3.4 Solving Challenging Problems Using Nodal Analysis

3.5 When Things Go Wrong with Nodal Analysis

3.6 What You Need to Know before You Continue

Chapter 4: Analysis of Resistive Networks: Mesh Analysis

4.1 Application of Mesh Analysis

4.2 Concept of Supermesh

4.3 Circuits with Multiple Independent Current Sources

4.4 Solving Challenging Problems Using the Mesh Analysis

4.5 When Things Go Wrong with Mesh Analysis

4.6 What You Need to Know before You Continue

Chapter 5: Black-Box Concept

5.1 Thévenin and Norton Equivalent Circuits

5.2 Maximum Power Transfer

5.3 Shortcuts in Equivalent Circuits

5.4 When Things Go Wrong with Equivalent Circuits

5.5 What You Need to Know before You Continue

Chapter 6: Transient Analysis

6.1 Capacitance and Capacitors

6.2 Inductance and Inductors

6.3 Time-Dependent Analysis of Circuits in Transient State

6.4 Switching and Fixed-Time Analysis

6.5 Parallel and Series Connections of Capacitors and Inductors

6.6 When Things Go Wrong in Transient Analysis

6.7 What You Need to Know before You Continue

Chapter 7: Steady-State Analysis of Time-Harmonic Circuits

7.1 Steady-State Concept

7.2 Time-Harmonic Circuits with Sinusoidal Sources

7.3 Concept of Phasor Domain and Component Transformation

7.4 Special Circuits in Phasor Domain

7.5 Analysis of Complex Circuits at Fixed Frequencies

7.6 Power in Steady State

7.7 When Things Go Wrong in Steady-State Analysis

7.8 What You Need to Know before You Continue

Chapter 8: Selected Components of Modern Circuits

8.1 When Connections Are via Magnetic Fields: Transformers

8.2 When Components Behave Differently from Two Sides: Diodes

8.3 When Components Involve Many Connections: OP-AMPs

8.4 When Circuits Become Modern: Transistors

8.5 When Components Generate Light: LEDs

8.6 Conclusion

Chapter 9: Practical Technologies in Modern Circuits

9.1 Measurement Instruments

9.2 Three-Phase Power Delivery

9.3 AD and DA Converters

9.4 Logic Gates

9.5 Memory Units

9.6 Conclusion

Chapter 10: Next Steps

10.1 Energy Is Conserved, Always!

10.2 Divide and Conquer Complex Circuits

10.3 Appreciate the Package

10.4 Consider Yourself as a Circuit Element

10.5 Safety First

Chapter 11: Photographs of Some Circuit Elements

Appendix A

A.1 Basic Algebra Identities

A.2 Trigonometry

A.3 Complex Numbers

Appendix B: Solutions to Exercises

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