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ISBN 10: 0132662744
ISBN 13: 978-0132662741
Author: Umran Inan, Aziz Inan, Ryan Said
Chapter 1 – Introduction
1.1 Lumped versus Distributed Electrical Circuits
1.2 Electromagnetic Components
1.3 Maxwell’s Equations and Electromagnetic Waves
1.4 Summary
Chapter 2 – Transient Response of Transmission Lines
2.1 Heuristic Discussion of Transmission Line Behavior and Circuit Models
2.2 Transmission Line Equations and Wave Solutions
2.3 Reflection at Discontinuities
2.4 Transient Response of Transmission Lines with Resistive Terminations
2.5 Transient Response of Transmission Lines with Reactive Terminations
2.6 Time-Domain Reflectometry
2.7 Transmission Line Parameters
2.8 Summary
Chapter 3 – Steady-State Waves on Transmission Lines
3.1 Wave Solutions Using Phasors
3.2 Voltage and Current on Lines with Short- or Open-Circuit Terminations
3.3 Lines Terminated in an Arbitrary Impedance
3.4 Power Flow on a Transmission Line
3.5 Impedance Matching
3.6 The Smith Chart
3.7 Sinusoidal Steady-State Behavior of Lossy Lines
3.8 Summary
Chapter 4 – The Static Electric Field
4.1 Electric Charge
4.2 Coulomb’s Law
4.3 The Electric Field
4.4 The Electric Potential
4.5 Electric Flux and Gauss’s Law
4.6 Divergence: Differential Form of Gauss’s Law
4.7 Metallic Conductors
4.8 Poisson’s and Laplace’s Equations
4.9 Capacitance
4.10 Dielectric Materials
4.11 Electrostatic Boundary Conditions
4.12 Electrostatic Energy
4.13 Electrostatic Forces
4.14 Microelectromechanical Systems (MEMS)
4.15 Summary
Chapter 5 – Steady Electric Currents
5.1 Current Density and the Microscopic View of Conduction
5.2 Current Flow, Ohm’s Law, and Resistance
5.3 Electromotive Force and Kirchhoff’s Voltage Law
5.4 The Continuity Equation and Kirchhoff’s Current Law
5.5 Redistribution of Free Charge
5.6 Boundary Conditions for Steady Current Flow
5.7 Duality of J and D: The Resistance–Capacitance Analogy
5.8 Joule’s Law
5.9 Surface and Line Currents
5.10 Summary
Chapter 6 – The Static Magnetic Field
6.1 Ampère’s Law of Force
6.2 The Biot–Savart Law and Its Applications
6.3 Ampère’s Circuital Law
6.4 Curl of the Magnetic Field: Differential Form of Ampère’s Law
6.5 Vector Magnetic Potential
6.6 The Magnetic Dipole
6.7 Divergence of B, Magnetic Flux, and Inductance
6.8 Magnetic Fields in Material Media
6.9 Boundary Conditions for Magnetostatic Fields
6.10 Magnetic Forces and Torques
6.11 Summary
Chapter 7 – Time-Varying Fields and Maxwell’s Equations
7.1 Faraday’s Law
7.2 Induction Due to Motion
7.3 Energy in a Magnetic Field
7.4 Displacement Current and Maxwell’s Equations
7.5 Review of Maxwell’s Equations
7.6 Summary
Chapter 8 – Waves in an Unbounded Medium
8.1 Plane Waves in a Simple, Source-Free, and Lossless Medium
8.2 Time-Harmonic Uniform Plane Waves in a Lossless Medium
8.3 Plane Waves in Lossy Media
8.4 Electromagnetic Energy Flow and the Poynting Vector
8.5 Polarization of Electromagnetic Waves
8.6 Arbitrarily Directed Uniform Plane Waves
8.7 Nonplanar Electromagnetic Waves
8.8 Summary
Chapter 9 – Reflection, Transmission, and Refraction of Waves at Planar Interfaces
9.1 Normal Incidence on a Perfect Conductor
9.2 Normal Incidence on a Lossless Dielectric
9.3 Multiple Dielectric Interfaces
9.4 Normal Incidence on a Lossy Medium
9.5 Oblique Incidence upon a Perfect Conductor
9.6 Oblique Incidence at a Dielectric Boundary
9.7 Total Internal Reflection
9.8 Oblique Incidence on a Lossy Medium
9.9 Summary
Chapter 10 – Parallel-Plate and Dielectric Slab Waveguides
10.1 Waves between Parallel Metal Plates
10.2 Dielectric Waveguides
10.3 Wave Velocities and Waveguide Dispersion
10.4 Summary
Chapter 11 – Field–Matter Interactions and Metamaterials
11.1 Wave Propagation in Ionized Gases (Plasmas)
11.2 Frequency Response of Dielectrics and Conductors
11.3 Metamaterials
11.4 Summary
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Tags: Umran Inan, Aziz Inan, Ryan Said, Electromagnetic Engineering, Waves
