Basic Engineering Circuit Analysis: Student Success Plus! New Homework Problem Supplement / Edition 8

Basic Engineering Circuit Analysis: Student Success Plus! New Homework Problem Supplement / Edition 8

by J. David Irwin, R. Mark Nelms
     
 

ISBN-10: 0471686646

ISBN-13: 9780471686644

Pub. Date: 07/28/2004

Publisher: Wiley

Irwin's Basic Engineering Circuit Analysis has built a solid reputation for its highly accessible presentation, clear explanations, and extensive array of helpful learning aids. Now in a new Eighth Edition, this highly-accessible book has been fine-tuned and revised, making it more effective and even easier to use. It covers such topics as resistive circuits

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Overview

Irwin's Basic Engineering Circuit Analysis has built a solid reputation for its highly accessible presentation, clear explanations, and extensive array of helpful learning aids. Now in a new Eighth Edition, this highly-accessible book has been fine-tuned and revised, making it more effective and even easier to use. It covers such topics as resistive circuits, nodal and loop analysis techniques, capacitance and inductance, AC steady-state analysis, polyphase circuits, the Laplace transform, two-port networks, and much more.

For over twenty years, Irwin has provided readers with a straightforward examination of the basics of circuit analysis, including:

  • Using real-world examples to demonstrate the usefulness of the material.
  • Integrating MATLAB throughout the book and includes special icons to identify sections where CAD tools are used and discussed.
  • Offering expanded and redesigned Problem-Solving Strategies sections to improve clarity.
  • A new chapter on Op-Amps that gives readers a deeper explanation of theory.
  • A revised pedagogical structure to enhance learning.

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Product Details

ISBN-13:
9780471686644
Publisher:
Wiley
Publication date:
07/28/2004
Pages:
45
Product dimensions:
7.70(w) x 9.82(h) x 0.13(d)

Table of Contents

1. Basic Concepts
2. Resistive Circuits
3. Nodal and Loop Analysis Techniquesv
4. Additional Analysis Techniques
5. Capacitance and Inductance
6. First-Order & Second-Order Transient Circuits
7. AC Steady-State Analysis
8. Magnetically Coupled Networks
9. Steady-State Power Analysis
10. Polyphase Circuits
11. Variable Frequency Network Performance
12. The Laplace Transform
13. Application of the Laplace Transform to Circuit Analysis
14. Fourier Analysis Techniques
15. Two-Port Networks
16. Basic Semiconductor Electronic Circuits
Appendix: Techniques for Solving Linearly Independent Simultaneous Equations
List of Important Equations, arranged by chapter.

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