Alexander Macfarlane

For other persons of the same name, see Alexander Macfarlane (disambiguation).
Alexander Macfarlane

Alexander Macfarlane (1851 – 1913)
Born 21 April 1851 (1851-04-21)
Blairgowrie, Scotland
Died 28 August 1913 (1913-08-29) (aged 62)
Chatham, Ontario, Canada
Residence Chatham, Ontario
Nationality Scottish
Fields Logic
Physics
Mathematics
Institutions University of Texas
Lehigh University
Alma mater University of Edinburgh
Doctoral advisor Peter Guthrie Tait
Known for Scientific biographies
Algebra of Physics
Influences William Rowan Hamilton
William Kingdon Clifford
Arthur Cayley
Influenced G. W. Pierce
Quaternion Society

Alexander Macfarlane FRSE (21 April 1851 – 28 August 1913) was a Scottish logician, physicist, and mathematician.

Macfarlane was born in Blairgowrie, Scotland and studied at the University of Edinburgh. His doctoral thesis "The disruptive discharge of electricity"[1] reported on experimental results from the laboratory of Peter Guthrie Tait. In 1878 Macfarlane was elected a Fellow of the Royal Society of Edinburgh

During his life, Macfarlane played a prominent role in research and education. He taught at the universities of Edinburgh and St Andrews, was physics professor at the University of Texas (1885 – 1894),[2] professor of Advanced Electricity, and later of mathematical physics, at Lehigh University. MacFarlane was the secretary of the Quaternion Society and compiler of its publications.

Macfarlane was also the author of a popular 1916 collection of mathematical biographies (Ten British Mathematicians), a similar work on physicists (Lectures on Ten British Physicists of the Nineteenth Century, 1919), and he compiled a bibliography on quaternions in 1904. Macfarlane was caught up in the revolution in geometry during his lifetime,[3] in particular through the influence of G. B. Halsted who was mathematics professor at the University of Texas. Macfarlane originated an Algebra of Physics, which was his adaptation of quaternions to physical science. His first publication on Space Analysis preceded the presentation of Minkowski Space by seventeen years.[4]

Macfarlane actively participated in several International Congresses of Mathematicians including the primordial meeting in Chicago, 1893, and the Paris meeting of 1900 where he spoke on "Application of space analysis to curvilinear coordinates".

Macfarlane retired to Chatham, Ontario, where he died in 1913.

Space analysis

Alexander Macfarlane stylized his work as "Space Analysis". In 1894 he published his five earlier papers and a book review of Alexander MacAulay's Utility of Quaternions in Physics. This collection is now available on-line.[5] Page numbers are carried from previous publications, and the reader is presumed familiar with quaternions. The first paper is "Principles of the Algebra of Physics" where he first proposes the hyperbolic quaternion algebra, since "a student of physics finds a difficulty in principle of quaternions which makes the square of a vector negative." The second paper is "The Imaginary of the Algebra". Here he introduces the hyperbolic versor as the hyperbolic quaternion corresponding to the versor of Hamilton. The presentation is encumbered by the notation

h \alpha ^ A = \cosh A + \sinh A \ \alpha ^{\pi/2}.

Later he conformed to the notation exp(A α) used by Euler and Sophus Lie. The expression \alpha ^{\pi/2} is meant to emphasize that α is a right versor, where π/2 is the measure of a right angle in radians. The π/2 in the exponent is, in fact, superfluous.

Papers three and four are "Fundamental Theorems of Analysis Generalized for Space" and "On the definition of the Trigonometric Functions", which he had presented the previous year in Chicago at the Congress of Mathematicians held in connection with the World's Columbian Exhibition. He follows George Salmon in exhibiting the hyperbolic angle, argument of hyperbolic functions. The fifth paper is "Elliptic and Hyperbolic Analysis" which considers the spherical law of cosines as the fundamental theorem of the sphere, and proceeds to analogues for the ellipsoid of revolution, general ellipsoid, and equilateral hyperboloids of one and two sheets, where he provides the hyperbolic law of cosines.

In 1900 Alexander published "Hyperbolic Quaternions"[6] with the Royal Society in Edinburgh, and included a sheet of nine figures, two of which display conjugate hyperbolas. Having been stung in the Great Vector Debate over the non-associativity of his Algebra of Physics, he restored associativity by reverting to biquaternions, an algebra used by students of Hamilton since 1853.

Works

Notes and references

  1. A Marfarlane (1878) The disruptive discharge of electricity from Nature 19:184,5
  2. See the Macfarlane papers at the University of Texas.
  3. 1830–1930: A Century of Geometry, L Boi, D. Flament, JM Salanskis editors, Lecture Notes in Physics No. 402, Springer-Verlag ISBN 3-540-55408-4
  4. A. Macfarlane (1891) "Principles of the Algebra of Physics", Proceedings of the American Association for the Advancement of Science 40:65–117. It was 1908 when Hermann Minkowski proposed his spacetime.
  5. A. Macfarlane (1894) Papers on Space Analysis, B. Westerman, New York, weblink from archive.org
  6. A. Macfarlane (1900) "Hyperbolic Quaternions" Proceedings of the Royal Society at Edinburgh, vol. 23, Nov. 1899 to July 1901 sessions, pp. 169180+figures plate. Online at Cambridge Journals (paid access), Internet Archive (free), or Google Books (free). (Note: P. 177 and figures plate incompletely scanned in free versions.)
  7. Mason, Thomas E. (1917). "Review: Alexander Macfarlane, Ten British Mathematicians". Bull. Amer. Math. Soc. 23 (4): 191–192. doi:10.1090/s0002-9904-1917-02913-8.
  8. G. B. Mathews (1917) Review:Ten British Mathematicians from Nature 99:221,2 (#2481)
  9. N.R.C. (1920) Review:Ten British Physicists from Nature 104:561,2 (#2622)

External links

This article is issued from Wikipedia - version of the Wednesday, February 10, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.