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Engineering Book from C.H.I.P.S.

Fundamentals of Engineering Electromagnetics
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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Fundamentals of Engineering Electromagnetics
by Rajeev Bansal
2006 416 pages $94.95 + shipping
Texas residents please add 6.75 % sales tax

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