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Differential forms in electromagnetics / Ismo V. Lindell.

By: Lindell, Ismo V [author.].
Contributor(s): John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: materialTypeLabelBookSeries: IEEE Press series on electromagnetic wave theory: 27Publisher: Piscataway, New Jersey : IEEE Press, c2004Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2005]Description: 1 PDF ([xv], 253 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780471723097.Subject(s): Electromagnetism -- Mathematics | Differential forms | Electrical and Electronics Engineering | Laplace equations | Magnetic separation | Magnetoelectric effects | Magnetostatics | Manifolds | Matrices | Maxwell equations | Measurement | Media | Perpendicular magnetic anisotropy | Physics | Polynomials | Quaternions | Transforms | Vectors | Writing | Aerospace electronics | Bibliographies | Biographies | Books | Concrete | Current | Electric potential | Electromagnetic fields | Electromagnetic scattering | Electromagnetics | Equations | Euclidean distance | Impedance | IndexesGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 537/.0151 Online resources: Abstract with links to resource Also available in print.
Contents:
Multivectors -- Dyadic algebra -- Differential forms -- Electromagnetic fields and sources -- Medium, boundary, and power conditions -- Theorems and transformations -- Electromagnetic waves.
Summary: An introduction to multivectors, dyadics, and differential forms for electrical engineers While physicists have long applied differential forms to various areas of theoretical analysis, dyadic algebra is also the most natural language for expressing electromagnetic phenomena mathematically. George Deschamps pioneered the application of differential forms to electrical engineering but never completed his work. Now, Ismo V. Lindell, an internationally recognized authority on differential forms, provides a clear and practical introduction to replacing classical Gibbsian vector calculus with the mathematical formalism of differential forms. In Differential Forms in Electromagnetics, Lindell simplifies the notation and adds memory aids in order to ease the reader's leap from Gibbsian analysis to differential forms, and provides the algebraic tools corresponding to the dyadics of Gibbsian analysis that have long been missing from the formalism. He introduces the reader to basic EM theory and wave equations for the electromagnetic two-forms, discusses the derivation of useful identities, and explains novel ways of treating problems in general linear (bi-anisotropic) media. Clearly written and devoid of unnecessary mathematical jargon, Differential Forms in Electromagnetics helps engineers master an area of intense interest for anyone involved in research on metamaterials.
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Includes bibliographical references and index.

Multivectors -- Dyadic algebra -- Differential forms -- Electromagnetic fields and sources -- Medium, boundary, and power conditions -- Theorems and transformations -- Electromagnetic waves.

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An introduction to multivectors, dyadics, and differential forms for electrical engineers While physicists have long applied differential forms to various areas of theoretical analysis, dyadic algebra is also the most natural language for expressing electromagnetic phenomena mathematically. George Deschamps pioneered the application of differential forms to electrical engineering but never completed his work. Now, Ismo V. Lindell, an internationally recognized authority on differential forms, provides a clear and practical introduction to replacing classical Gibbsian vector calculus with the mathematical formalism of differential forms. In Differential Forms in Electromagnetics, Lindell simplifies the notation and adds memory aids in order to ease the reader's leap from Gibbsian analysis to differential forms, and provides the algebraic tools corresponding to the dyadics of Gibbsian analysis that have long been missing from the formalism. He introduces the reader to basic EM theory and wave equations for the electromagnetic two-forms, discusses the derivation of useful identities, and explains novel ways of treating problems in general linear (bi-anisotropic) media. Clearly written and devoid of unnecessary mathematical jargon, Differential Forms in Electromagnetics helps engineers master an area of intense interest for anyone involved in research on metamaterials.

Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 12/21/2015.

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