Lines and electromagnetic fields for engineers

Takes an unusual approach by emphasizing engineering applications (transmission lines, propagation, and waveguides) while downplaying static fields. This well written text is outstanding for its efforts to connect electromagnetic field analysis with subjects that students know, e.g. circuit theory,...

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Bibliographic Details
Main Author:	Miner, Gayle F.
Format:	Book
Language:	English
Published:	New York Oxford University Press 1996
Subjects:	Electric lines Electromagnetic fields
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Table of Contents:

Transmission Lines: Parameters, Performance Characteristics, and Applications to Distributed Systems
Graphical Solutions of Transmission Line and Transmission Line-like Systems: The Smith Chart
Transients on Transmission Lines
Scalars, Vectors, Coordinate Systems, Vector Operations, and Functions
Theory, Physical Description, and Basic Equations of Electric Fields
Theory, Physical Description, and Basic Equations of Magnetic Fields
Theory, Physical Description, and Basic Equations of Time-Varying Electromagnetic Fields: Maxwell's Equations and Field Properties of Waves
Propagation of Plane Waves
Waveguides and Cavities
App. A Sinusoidal Steady-State Formulation
App. B Coaxial Cable Data
App. C Selected Laplace Transform Pairs
App. D Expansions of Vector Operators in Rectangular, Spherical, and Cylindrical Coordinates
App. E Unit Vector Relationships and Partial Derivatives in Rectangular, Spherical, and Cylindrical Coordinates
App. F Vector Helmholtz Theorem
App. G The Unit Dyad
App. H Derivation of the Energy in a Magnetic Field
App. I Alternative Solution Forms of the Wave Equation
App. J Generalized Coordinate System Expressions for the Transverse Components of the E and H in Terms of E[subscript z] and H[subscript z] for Waves Propagating in the z Direction, with Transverse Coordinates t[subscript 1] and t[subscript 2]
App. K Solution of Partial Differential Equations by the Method of Separation of Variables
App. L Series of Ordinary Differential Equations and Solution Functions Defined by Them: Trigonometric, Bessel, and Legendre Functions
App. M Identities, Recursion Formulas, and Differential and Integral Formulas for Bessel Functions and Legendre Functions
App. N Orthogonal Functions and Orthogonal Function Series
App. O Definite Integrals that Yield Bessel Functions

Lines and electromagnetic fields for engineers

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