Electronics engineer's reference book /
Electronics Engineer's Reference Book, Sixth Edition is a five-part book that begins with a synopsis of mathematical and electrical techniques used in the analysis of electronic systems. Part II covers physical phenomena, such as electricity, light, and radiation, often met with in electronic s...
| Corporate Author: | |
|---|---|
| Other Authors: | |
| Format: | eBook |
| Language: | English |
| Published: |
London :
Butterworths,
1989.
|
| Edition: | Sixth edition. |
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Front Cover; Electronics Engineer's Reference Book; Copyright Page; Preface; Table of Contents; Acknowledgements; List of Contributors; Part I: Techniques; Chapter 1. Trigonometric Functions and General Formulae; 1.1 Mathematical signs and symbols; 1.2 Trigonometric formulae; 1.3 Trigonometric values; 1.4 Approximations for small angles; 1.5 Solution of triangles; 1.6 Spherical triangle; 1.7 Exponential form; 1.8 De Moivre's theorem; 1.9 Euler's relation; 1.10 Hyperbolic functions; 1.11 Complex variable; 1.12 Cauchy-Riemann equations; 1.13 Cauchy's theorem; 1.14 Zeros, poles and residues
- 1.15 Some standard forms1.16 Coordinate systems; 1.17 Transformation of integrals; 1.18 Laplace's equation; 1.19 Solution of equations; 1.20 Method of least squares; 1.21 Relation between decibels, current and voltage ratio, and power ratio; Chapter 2. Calculus; 2.1 Derivative; 2.2 Maxima and minima; 2.3 Integral; 2.4 Derivatives and integrals; 2.5 Standard substitutions; 2.6 Reduction formulae; 2.7 Numerical integration; 2.8 Vector calculus; Chapter 3. Series and Transforms; 3.1 Arithmetic series; 3.2 Geometric series; 3.3 Binomial series; 3.4 Taylor's series; 3.5 Maclaurin's series
- 3.6 Laurent's series3.7 Power series for real variables; 3.8 Integer series; 3.9 Fourier series; 3.10 Rectified sine wave; 3.11 Square wave; 3.12 Triangular wave; 3.13 Sawtooth wave; 3.14 Pulse wave; 3.15 Fourier transforms; 3.16 Laplace transforms; Chapter 4. Matrices and Determinants; 4.1 Linear simultaneous equations; 4.2 Matrix arithmetic; 4.3 Eigenvalues and eigenvectors; 4.4 Coordinate transformation; 4.5 Determinants; 4.6 Properties of determinants; 4.7 Numerical solution of linear equations; Chapter 5. Electric Circuit Theory; 5.1 Types of source; 5.2 Alternating current theory
- 5.3 Resistance, inductance, capacitance and related quantities5.4 AC analysis of electric circuits; 5.5 impedance, reactance, admittance and susceptanc e; 5.6 Technique for a.c. circuits; 5.7 Average and r.rn.s. values; 5.8 Power, power factor; 5.9 Network taws and theorems: Kirchhoff's laws; 5.10 Thevenin's theorem and Norton's theorem; 5.11 Resonance,'Q* factor; 5.12 Mutual inductance; 5.13 Differential equations and Laplace transforms; 5.14 Transients and time constants; 5.15 Three-phase circuits; 5.16 The decibel; 5.17 Frequency response and Bode diagrams; Chapter 6. Statistics
- 6.1 Introduction6.2 Data presentation; 6.3 Averages; 6.4 Dispersion from the average; 6.5 Skewness; 6.6 Combinations and permutations; 6.7 Regression and correlation; 6.8 Probability; 6.9 Probability distributions; 6.10 Sampling; 6.11 Tests of significance; Part II: Physical Phenomena; Chapter 7. Quantities and Units; 7.1 International unit system; 7.2 Universal constants in SI units; 7.3 Metric to imperial conversion factors; 7.4 Symbols and abbreviations; Chapter 8. Electricity; 8.1 Introduction; 8.2 Molecules, atoms and electrons; 8.3 Atomic structure; 8.4 Wave mechanics