Engineering electromagnetic fields and waves. Electrical engineering, Electromagnetic fields. 14 day loan required to access EPUB and PDF files. Engineering Electromagnetic Fields Johnk and numerous book collections from fictions to scientific research in any way. Among them is this Engineering Electromagnetic Fields Johnk that can be your partner. Chapter 33 restructuring the postwar world guided reading answer key, adobe reader enterprise administration guide, Pearson Education Guided.
Some of the lecture notes were prepared in LaTeX by Alan Dunn, a former MIT student. He used Prof. Zahn's handwritten notes to produce them.
H/M = Haus, Hermann A., and James R. Melcher. Electromagnetic Fields and Energy. Englewood Cliffs, NJ: Prentice-Hall, 1989. ISBN: 9780132490207.
Electromagnetic Fields And Waves
| SES # | TOPICS | LECTURE NOTES |
|---|---|---|
| I. Maxwell's equations | ||
| L1 | Coulomb-Lorentz force law; Maxwell's equations in integral form; simple electric and magnetic field solutions using Gauss' and Ampere's laws for point, line, and surface charges and currents; superposition; simple cylindrical and spherical source problems Demos: H/M 10.2.1 - Edgerton's Boomer | (PDF) |
| L2 | Derive boundary conditions; apply boundary conditions to surface charge and surface current problems | (PDF) |
| L3 | Divergence and Stokes' theorems; Maxwell's equations in differential form; electroquasistatics and magnetoquasistatics (MQS); potential and the gradient operator Demo: H/M 10.0.1 nonuniqueness of voltage in an MQS system | (PDF) |
| L4 | The electric field, electric scalar potential, and the gradient; Poisson's and Laplace's equations; potential of point charge; Coulomb superposition integral | (PDF) |
| L5 | Method of images | (PDF) |
| L6-L7 | Lecture 6Media: dielectric, conducting, and magnetic constitutive laws; charge relaxation Demos: H/M 6.6.1 artificial dielectric; 9.4.1 measurement of B-H characteristic (magnetic hysteresis loop) Lecture 7Conservation of charge boundary condition; Maxwell capacitor; magnetic dipoles and circuits; reluctance | (PDF - 1.2 MB) |
| II. Plane waves | ||
| L8 | Wave equation; Poynting's theorem | (PDF) |
| L9 | Oblique incidence on a perfect conductor; transverse magnetic (TM) waves with oblique incidence on lossless media described by ε and µ; reflection and transmission; transverse electric (TE) waves with oblique incidence on lossless media | (PDF) |
| III. Transmission lines and waveguides | ||
| L10 | Parallel plate transmission lines; wave equation; sinusoidal steady state Demo: H/M 13.1.1 visualization of standing waves | (PDF) |
| L11 | Gamma plane; Smith chart; voltage standing wave ratio (VSWR); λ/4 transformer Demo: V(z,t), I(z,t) movies | (PDF - 2.6 MB) |
| L12-L13 | Lecture 12Wave equations (lossless); transient waves on transmission lines Demo: H/M 14.4.1 transmission line matching, reflection, and quasistatic charging Lecture 13Reflections from ends; driven and initial value problems | (PDF - 2.5 MB) |
| L14 | Rectangular waveguides; TM and TE modes; cut-off | (PDF) |
| IV. Fields and forces | ||
| L15 | Dielectric waveguides Demo: evanescent waves | (PDF) |
| L16-L17 | Lecture 16Energy in electric and magnetic fields; principle of virtual work to find electric and magnetic forces; magnetic circuit problems Demo: H/M 11.6.2 force on a dielectric material (video) Lecture 17Synchronous rotating machines Film: Synchronous Machines | (PDF) |
| L18 | Self-excited electric and magnetic machines Demo: H/M 7.7.1 van de Graaff and Kelvin generators (video); self-excited commutator machines | (PDF - 1.3 MB) |
| V. Antennas and radiation | ||
| L19 | Radiation by charges and currents; setting the gauge; Lorentz gauge; superposition integral solutions for scalar and vector potentials; radiation from a point electric dipole; receiving antenna properties | (PDF) |
| L20 | 2 element array; broad side and end-fire arrays Demo: radiation patterns | (PDF - 1.1 MB) |
| L21 | Transmitting and receiving antennas; wireless and optical communications | (PDF - 1.5 MB) |
| VI. Acoustics | ||
| L22 | Acoustic waves | (PDF - 2.5 MB) |
| L23 | Course review | (PDF - 1.2 MB) |
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Field And Wave Electromagnetics 2nd
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