Introduction to Electric Circuits 1st Edition by Ray Powell 0340631988 9780340631980

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ISBN 10: 0340631988

ISBN 13: 9780340631980

Author: Ray Powell

An Introduction to Electric Circuits is essential reading for first year students of electronics and electrical engineering who need to get to grips quickly with the basic theory. This text is a comprehensive introduction to the topic and, assuming virtually no knowledge, it keeps the mathematical content to a minimum.

As with other textbooks in the series, the format of this book enables the student to work at their own pace. It includes numerous worked examples throughout the text and graded exercises, with answers, at the end of each section.

Introduction to Electric Circuits 1st Table of contents:

Chapter 1. Units and dimensions

1.1 Introduction

1.2 The Systéme International d’Unités

1.3 Dimensional analysis

1.4 Multiples and submultiples of units

1.5 Self-assessment test

1.6 Problems

Chapter 2. Electric circuit elements

2.1 Electricity

2.2 Electric circuits

2.3 Circuit elements

2.4 Lumped parameters

2.5 Energy stored in circuit elements

2.6 Power dissipated in circuit elements

2.7 Self-assessment test

2.8 Problems

Chapter 3. DC circuit analysis

3.1 Introduction

3.2 Definition of terms

3.3 Kirchhoff’s current law

3.4 Kirchhoff’s voltage law

3.5 The Principle of Superposition

3.6 Thevenin’s theorem

3.7 Norton’s theorem

3.8 The Maximum Power Transfer Theorem

3.9 Delta-star transformation

3.10 Star-delta transformation

3.11 Self-assessment test

3.12 Problems

Chapter 4. Single-phase a.c. circuits

4.1 Alternating quantities

4.2 Single-phase a.c. circuits in the steady state

4.3 Series a.c. circuits

4.4 Complex notation

4.5 Parallel a.c. circuits

4.6 Series-parallel a.c. circuits

4.7 Power in single-phase a.c. circuits

4.8 Self-assessment test

4.9 Problems

Chapter 5. Three-phase a.c. circuits

5.1 Introduction

5.2 Generation of three-phase voltage

5.3 Phase sequence

5.4 Balanced three-phase systems

5.5 Power in balanced three-phase circuits

5.6 Self-assessment test

5.7 Problems

Chapter 6. Resonance

6.1 Series resonance

6.2 Parallel resonance

6.3 Self-assessment test

6.4 Problems

Chapter 7. Nodal and mesh analysis

7.1 Introduction

7.2 Matrices

7.3 Nodal voltage analysis

7.4 Mesh current analysis

7.5 Self-assessment test

7.6 Problems

Chapter 8 Transient analysis

8.1 Introduction

8.2 Circuits containing resistance and inductance

8.3 Circuits containing resistance and capacitance

8.4 The Laplace transform

8.5 Self-assessment test

8.6 Problems

Chapter 9. Two-port networks

9.1 Introduction

9.2 The impedance or z-parameters

9.3 The admittance or y-parameters

9.4 The hybrid or h-parameters

9.5 The inverse hybrid or g-parameters

9.6 The transmission or ABCD-parameters

9.7 The inverse transmission parameters

9.8 Cascaded two-port networks

9.9 Characteristic impedance (Z0)

9.10 Image impedances

9.11 Insertion loss

9.12 Propagation coefficient (γ’)

9.13 Self-assessment test

9.14 Problems

Chapter 10. Duals and analogues

10.1 Duals of circuit elements

10.2 Dual circuits

10.3 Analogues

10.4 Self-assessment test

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