by Rajeev Bansal
Fundamentals of Engineering Electromagnetics provides such an understanding, distilling the most important theoretical aspects and applying this knowledge to the formulation and solution of real engineering problems.
Features:
- Presents fundamental concepts such as Maxwell's equations, static fields, electromagnetic induction, waves, and more
- Includes appendices on useful constants, units and conversions, and vector analysis and coordinate systems
- Serves as a bridge between standard textbooks in electromagnetic theory and specialized references
Contents
Fundamentals of Engineering Electomagnetics Revisited
- Field Concepts and Constitutive Relations
- Maxwell's Equations, Boundary Conditions, Potentials, and Power and Energy
- Static Fields, Quasistatic Fields, and Waves
Applied Electrostatics
- The Electroquasistatic Regime
- Discrete and Distributed Capacitance
- Dielectric Permittivity
- The Origins of Electrostatic Charge
- When is ''Static'' Charge Truly Static?
- Induction Charging
- Dielectric Breakdown
- Corona Discharge
- Charges and Force
- Particle Charging in Air
- Charged Particle Motion
- Electrostatic Coating
- Electrostatic Paint Spraying
- Electrophotography
- Electrostatic Precipitation
- Field and Charge Measurement
- Electrostatic Field Mill
- Noncontacting Voltmeter
- Micromachines
- Digital Mirror Device
- Electrostatic Discharge and Charge Neutralization
Magnetostatics
- Theoretical Background and Fundamental Equations
- Applications of Magnetostatics
Electomagnetic Induction
- Theoretical Background and Fundamental Equations
- Consequences of Electromagnetic Induction
- Applications of Electromagnetic Induction and Faraday's Law
- Evaluation of Mutual and Self-Inductance
- Energy and Forces in the Magnetic Field: Implications and Applications
- Some Interesting Examples of Electromagnetic Induction
Wave Propagation
- Wave Equations and Characteristics
- Free-Space Propagation Model
- Path Loss Model
- Empirical Path Loss Formula
Transmission Lines
- Basic Transmission-Line Characteristics
- Transient Response of Lossless Transmission Lines
- Sinusoidal Steady-State Response of Transmission Lines
Waveguides and Resonators
- Mode Classifications
- Modal Fields and Cutoff Frequencies
- Properties of Metal Waveguides
- Rectangular Waveguides
- Circular Waveguides
- Coaxial-to-Waveguide Transitions
- Comparative Survey of Metal Waveguides
- Cavity Resonators
Antennas: Fundamentals
- Introduction to Radiation
- Antenna Terminology
- Simple Antenna Structures
- Antenna Arrays and Pattern Synthesis
- Smart Antennas
- Antenna Measurements
Antennas: Representative Types
- Microstrip Antennas
- Broadband Antennas
- Traveling and Leaky-Wave Antennas
- Aperture Antennas
- Phased Arrays
Electromagnetic Compatibility
- Significance of EMC to Modern Engineering Practice
- Useful Concepts and Techniques from Electromagnetics, Signals, and Circuits
- Important Coupling Mechanisms in EMC
- Practical Techniques for the Control of Interference
- EMC Standards and Techniques
Index
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