65. In the course of some researches upon inverse problems regarding distributions of magnetism, and upon the comparison of electro-magnets and common magnets, I have found it extremely convenient to make use of definite terms to express certain distributions of magnetism and forms of magnetized matter possessing remarkable properties. The use of such terms will be of still greater consequence in describing the results of these researches, and therefore, before proceeding to do so, I shall give definitions of the terms which I have adopted, and explain briefly the principal properties of the magnetic distributions to which they are applied. The remainder of this chapter will be devoted to three new methods of analysing the expressions for the resultant force of a magnet at any point, suggested by the consideration of these special forms of magnetic distribution. A Mathematical Theory of Electro-Magnets, and Inverse Problems regarding magnetic distributions, are the subjects of papers which I hope to be able to lay before the Royal Society on a subsequent occasion. 66. Definitions and explanations regarding Magnetic Solenoids (1.) A magnetic solenoid is an infinitely thin bar of any form, longitudinally magnetized with an intensity varying inversely as the area of the normal section in different parts.
%0 Journal Article
%1 Thomson1851Mathematical
%A Thomson, William
%D 1851
%I The Royal Society
%J Philosophical Transactions of the Royal Society of London
%K 53a45-vector-and-tensor-analysis 78-01-optics-electromagnetic-theory-instructional-exposition 78a02-optics-electromagnetic-theory-foundations 78a25-electromagnetic-theory-general 78a30-electro-and-magnetostatics complex-lamellar
%P 269--285
%R 10.1098/rstl.1851.0013
%T A Mathematical Theory of Magnetism—Continuation of Part I
%U http://dx.doi.org/10.1098/rstl.1851.0013
%V 141
%X 65. In the course of some researches upon inverse problems regarding distributions of magnetism, and upon the comparison of electro-magnets and common magnets, I have found it extremely convenient to make use of definite terms to express certain distributions of magnetism and forms of magnetized matter possessing remarkable properties. The use of such terms will be of still greater consequence in describing the results of these researches, and therefore, before proceeding to do so, I shall give definitions of the terms which I have adopted, and explain briefly the principal properties of the magnetic distributions to which they are applied. The remainder of this chapter will be devoted to three new methods of analysing the expressions for the resultant force of a magnet at any point, suggested by the consideration of these special forms of magnetic distribution. A Mathematical Theory of Electro-Magnets, and Inverse Problems regarding magnetic distributions, are the subjects of papers which I hope to be able to lay before the Royal Society on a subsequent occasion. 66. Definitions and explanations regarding Magnetic Solenoids (1.) A magnetic solenoid is an infinitely thin bar of any form, longitudinally magnetized with an intensity varying inversely as the area of the normal section in different parts.
@article{Thomson1851Mathematical,
abstract = {{65. In the course of some researches upon inverse problems regarding distributions of magnetism, and upon the comparison of electro-magnets and common magnets, I have found it extremely convenient to make use of definite terms to express certain distributions of magnetism and forms of magnetized matter possessing remarkable properties. The use of such terms will be of still greater consequence in describing the results of these researches, and therefore, before proceeding to do so, I shall give definitions of the terms which I have adopted, and explain briefly the principal properties of the magnetic distributions to which they are applied. The remainder of this chapter will be devoted to three new methods of analysing the expressions for the resultant force of a magnet at any point, suggested by the consideration of these special forms of magnetic distribution. A Mathematical Theory of Electro-Magnets, and Inverse Problems regarding magnetic distributions, are the subjects of papers which I hope to be able to lay before the Royal Society on a subsequent occasion. 66. Definitions and explanations regarding Magnetic Solenoids (1.) A magnetic solenoid is an infinitely thin bar of any form, longitudinally magnetized with an intensity varying inversely as the area of the normal section in different parts.}},
added-at = {2019-03-01T00:11:50.000+0100},
author = {Thomson, William},
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day = 01,
doi = {10.1098/rstl.1851.0013},
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issn = {0261-0523},
journal = {Philosophical Transactions of the Royal Society of London},
keywords = {53a45-vector-and-tensor-analysis 78-01-optics-electromagnetic-theory-instructional-exposition 78a02-optics-electromagnetic-theory-foundations 78a25-electromagnetic-theory-general 78a30-electro-and-magnetostatics complex-lamellar},
month = jan,
pages = {269--285},
posted-at = {2018-07-19 02:48:30},
priority = {5},
publisher = {The Royal Society},
timestamp = {2019-03-01T00:11:50.000+0100},
title = {{A Mathematical Theory of Magnetism—Continuation of Part I}},
url = {http://dx.doi.org/10.1098/rstl.1851.0013},
volume = 141,
year = 1851
}