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ISBN13: 978-0073366616

ISBN10: 0073366617

Cover type:

Edition/Copyright: 7TH 07

Publisher: McGraw-Hill Publishing Company

Published: 2007

International: No

ISBN10: 0073366617

Cover type:

Edition/Copyright: 7TH 07

Publisher: McGraw-Hill Publishing Company

Published: 2007

International: No

The hallmark feature of this classic text is its focus on the student-it is written so that students may teach the science of circuit analysis to themselves. Terms are clearly defined when they are introduced, basic material appears toward the beginning of each chapter and is explained carefully and in detail, and numerical examples are used to introduce and suggest general results. Simple practice problems appear throughout each chapter, while more difficult problems appear at the ends of chapters, following the order of presentation of text material. This introduction and resulting repetition provide an important boost to the learning process. Hayt's rich pedagogy supports and encourages the student throughout by offering tips and warnings, using design to highlight key material, and providing lots of opportunities for hands-on learning. The thorough exposition of topics is delivered in an informal way that underscores the authors' conviction that circuit analysis can and should be fun.

1 Circuit Analysis and Electrical Engineering

2 Basic Components and Electric Circuits

3 Voltage and Curent Laws

4 Basic Nodal and Mesh Analysis

5 Useful Circuit Analysis Techniques

6 The Operational Amplifier

7 Capacitors and Inductors

8 Basic RL and RC Circuits

9 The RLC Circuit

10 Sinusoidal Steady State Analysis

11 AC Power Circuit Analysis

12 Polyphase Circuits

13 Magnetically Coupled Circuits

14 Complex Frequency and The Laplace Transform

15 Circuit Analysis in the s-Domain

16 Frequency Response

17 Two-Port Networks

18 Fourier Circuit Analysis

19 State-Variable Analysis - on Web Site Only

Appendixes

Appendix 1 An Introduction to Network Topology

Appendix 2 Solution of Simultaneous Equations

Appendix 3 A Proof of Thevenin's Theorem

Appendix 4 A PSpice Tutorial

Appendix 5 Complex Numbers

Appendix 6 A Brief MATLAB tutorial

Appendix 7 Additional Laplace Transform Theorems

Appendix 8 Answers to Odd-Numbered Problems

William Hart Hayt, Jack E. Kemmerly and Steven M. Durbin

ISBN13: 978-0073366616ISBN10: 0073366617

Cover type:

Edition/Copyright: 7TH 07

Publisher: McGraw-Hill Publishing Company

Published: 2007

International: No

The hallmark feature of this classic text is its focus on the student-it is written so that students may teach the science of circuit analysis to themselves. Terms are clearly defined when they are introduced, basic material appears toward the beginning of each chapter and is explained carefully and in detail, and numerical examples are used to introduce and suggest general results. Simple practice problems appear throughout each chapter, while more difficult problems appear at the ends of chapters, following the order of presentation of text material. This introduction and resulting repetition provide an important boost to the learning process. Hayt's rich pedagogy supports and encourages the student throughout by offering tips and warnings, using design to highlight key material, and providing lots of opportunities for hands-on learning. The thorough exposition of topics is delivered in an informal way that underscores the authors' conviction that circuit analysis can and should be fun.

Table of Contents

2 Basic Components and Electric Circuits

3 Voltage and Curent Laws

4 Basic Nodal and Mesh Analysis

5 Useful Circuit Analysis Techniques

6 The Operational Amplifier

7 Capacitors and Inductors

8 Basic RL and RC Circuits

9 The RLC Circuit

10 Sinusoidal Steady State Analysis

11 AC Power Circuit Analysis

12 Polyphase Circuits

13 Magnetically Coupled Circuits

14 Complex Frequency and The Laplace Transform

15 Circuit Analysis in the s-Domain

16 Frequency Response

17 Two-Port Networks

18 Fourier Circuit Analysis

19 State-Variable Analysis - on Web Site Only

Appendixes

Appendix 1 An Introduction to Network Topology

Appendix 2 Solution of Simultaneous Equations

Appendix 3 A Proof of Thevenin's Theorem

Appendix 4 A PSpice Tutorial

Appendix 5 Complex Numbers

Appendix 6 A Brief MATLAB tutorial

Appendix 7 Additional Laplace Transform Theorems

Appendix 8 Answers to Odd-Numbered Problems

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