Electrical engineering
The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf!Electrical engineers need to mas...
| Otros Autores: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Newnes/Elsevier
c2008.
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| Edición: | 1st edition |
| Colección: | Newnes know it all series.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627366506719 |
Tabla de Contenidos:
- Front Cover; Electrical Engineering; Copyright Page; Contents; About the Authors; Chapter 1: An Introduction to Electric Circuits; 1.1 SI Units; 1.2 Charge; 1.3 Force; 1.4 Work; 1.5 Power; 1.6 Electrical Potential and e.m.f; 1.7 Resistance and Conductance; 1.8 Electrical Power and Energy; 1.9 Summary of Terms, Units and Their Symbols; 1.10 Standard Symbols for Electrical Components; 1.11 Electric Current and Quantity of Electricity; 1.12 Potential Difference and Resistance; 1.13 Basic Electrical Measuring Instruments; 1.14 Linear and Nonlinear Devices; 1.15 Ohm's Law
- 1.16 Multiples and Submultiples1.17 Conductors and Insulators; 1.18 Electrical Power and Energy; 1.19 Main Effects of Electric Current; Chapter 2: Resistance and Resistivity; 2.1 Resistance and Resistivity; 2.2 Temperature Coefficient of Resistance; Chapter 3: Series and Parallel Networks; 3.1 Series Circuits; 3.2 Potential Divider; 3.3 Parallel Networks; 3.4 Current Division; 3.5 Relative and Absolute Voltages; Chapter 4: Capacitors and Inductors; 4.1 Introduction to Capacitors; 4.2 Electrostatic Field; 4.3 Electric Field Strength; 4.4 Capacitance; 4.5 Capacitors; 4.6 Electric Flux Density
- 4.7 Permittivity4.8 The Parallel Plate Capacitor; 4.9 Capacitors Connected in Parallel and Series; 4.10 Dielectric Strength; 4.11 Energy Stored; 4.12 Practical Types of Capacitors; 4.13 Inductance; 4.14 Inductors; 4.15 Energy Stored; Chapter 5: DC Circuit Theory; 5.1 Introduction; 5.2 Kirchhoff's Laws; 5.3 The Superposition Theorem; 5.4 General DC Circuit Theory; 5.5 Thévenin's Theorem; 5.6 Constant-Current Source; 5.7 Norton's Theorem; 5.8 Thévenin and Norton Equivalent Networks; 5.9 Maximum Power Transfer Theorem; Chapter 6: Alternating Voltages and Currents; 6.1 The AC Generator
- 6.2 Waveforms6.3 AC Values; 6.4 The Equation of a Sinusoidal Waveform; 6.5 Combination of Waveforms; 6.6 Rectification; Chapter 7: Complex Numbers; 7.1 Introduction; 7.2 Operations involving Cartesian Complex Numbers; 7.3 Complex Equations; 7.4 The polar Form of a Complex Number; 7.5 Applying Complex Numbers to Series AC Circuits; 7.6 Applying Complex Numbers to Parallel AC Circuits; Chapter 8: Transients and Laplace Transforms; 8.1 Introduction; 8.2 Response of R-C Series Circuit to a Step Input; 8.3 Response of R-L Series Circuit to a Step Input; 8.4 L-R-C Series Circuit Response
- 8.5 Introduction to Laplace Transforms8.6 Inverse Laplace Transforms and the Solution of Differential Equations; Chapter 9: Frequency Domain Circuit Analysis; 9.1 Introduction; 9.2 Sinusoidal AC Electrical Analysis; 9.3 Generalized Frequency Domain Analysis; References; Chapter 10: Digital Electronics; 10.1 Semiconductors; 10.2 Semiconductor Diodes; 10.3 Bipolar Junction Transistors; 10.4 Metal-oxide Semiconductor Field-effect Transistors; 10.5 The transistor as a Switch; 10.6 Gallium Arsenide Semiconductors; 10.7 Light-emitting Diodes; 10.8 BUF and NOT Functions
- 10.9 AND, OR, and XOR Functions
