William Duncan MacMillan
W. D. MacMillan, University of Chicago, 1920s
Born(1871-07-24)July 24, 1871
DiedNovember 14, 1948(1948-11-14) (aged 77)
Scientific career
FieldsAstronomy, mathematics and physics
ThesisPeriodic Orbits about an Oblate Spheroid[1] (1908)
Doctoral advisorForest Ray Moulton[2]
Doctoral studentsWilliam Markowitz[2]

William Duncan MacMillan (July 24, 1871 – November 14, 1948) was an American mathematician and astronomer on the faculty of the University of Chicago. He published research on the applications of classical mechanics to astronomy, and is noted for pioneering speculations on physical cosmology.[3] For the latter, Helge Kragh noted, "the cosmological model proposed by MacMillan was designed to lend support to a cosmic optimism, which he felt was threatened by the world view of modern physics."[4]

Biography

He was born in La Crosse, Wisconsin, to D. D. MacMillan, who was in the lumber business, and Mary Jane McCrea. His brother, John H. MacMillan, headed the Cargill Corporation from 1909 to 1936. MacMillan graduated from La Crosse High School in 1888. In 1889, he attended Lake Forest College, then entered the University of Virginia. Later in 1898, he earned an A.B. degree from Fort Worth University, which was then a Methodist university in Texas. He performed his graduate work at the University of Chicago, earning a master's degree in 1906 and a PhD in astronomy in 1908. In 1907, prior to completing his PhD, he joined the staff of the University of Chicago as a research assistant in geology. In 1908, he became an associate in mathematics, then in 1909, he began instruction in astronomy at the same institution. His career as a professor began in 1912 when he became an assistant professor. In 1917, when the U.S. declared war on Germany, Dr. MacMillan served as a major in the U.S. army's ordnance department during World War I. Following the war, he became associate professor in 1919, then full professor in 1924. MacMillan retired in 1936.[3][5][6]

In a 1958 paper about MacMillan's work on cosmology, Richard Schlegel introduced MacMillan as "best known to physicists for his three-volume Classical Mechanics" that remained in print for decades after MacMillan's 1936 retirement.[3] MacMillan published extensively on the mathematics of the orbits of planets and stars. In the 1920s, MacMillan developed a cosmology that presumed an unchanging, steady-state model of the universe. This was uncontroversial at the time, and indeed in 1918, Albert Einstein had also sought to adapt his relativity theories to the model using a cosmological constant.[7] MacMillan accepted that the radiance of stars came from then unknown processes that converted their mass into radiant energy. This perspective suggested that individual stars and the universe itself would ultimately go dark, which was called the "heat death" of the universe. MacMillan avoided the conclusion about the universe through a mechanism later known as the "tired-light hypothesis". He speculated that the light emitted by stars might recreate matter in its travels through space.[4]

MacMillan's work on cosmology lost influence in the 1930s after Hubble's law became accepted. Edwin Hubble's 1929 publication, and earlier work by Georges Lemaître, reported on observations of entire galaxies far from the earth and its galaxy. The further away a galaxy is, the faster it is apparently moving away from the earth. Hubble's law strongly suggested that universe is expanding. In 1948, a new version of a steady-state cosmology was proposed by Bondi, Gold, and Hoyle that was consistent with the measurements on distant galaxies. While the authors were apparently not aware of MacMillan's earlier work, substantial similarities exist.[3][4] With the observation of the cosmic microwave background (CMB) in 1965, steady-state models of the universe have been rejected by most astronomers and physicists. The CMB is a prediction of the Big Bang model of an expanding universe.

MacMillan also had a distaste for Einstein's relativity theories. In a published debate in 1927, Macmillan invoked "postulates of normal intuition" to argue against them. He objected to the theories' inconsistency with an absolute scale of time. Einstein's theories predict that an observer will see that rapidly moving clocks tick more slowly than the observer's own clock. Later experiments amply confirmed this "time dilation" prediction of relativity theory.[8]

In an Associated Press report, MacMillan speculated on the nature of interstellar civilizations, believing that they would be vastly more advanced than our own. "Out in the heavens, perhaps, are civilizations as far above ours as we are above the single cell, since they are so much older than ours."

The crater MacMillan on the Moon is named in his honor.[9]

Selected publications

See also

References

  1. MacMillan, William Duncan (1909). Periodic Orbits about an Oblate Spheroid. University of Chicago. (doctoral dissertation, Department of Astronomy)
  2. 1 2 "William Duncan MacMillan". Astronomy Tree.
  3. 1 2 3 4 Schlegel, Richard (1958). "Steady-State Theory at Chicago". American Journal of Physics. 26 (9): 601. Bibcode:1958AmJPh..26..601S. doi:10.1119/1.1934713.
  4. 1 2 3 Kragh, Helge (May 1995). "Cosmology Between the Wars: The Nernst-MacMillan Alternative" (PDF). Journal for the History of Astronomy. xxxiv (2): 94–115. Bibcode:1995JHA....26...93K. doi:10.1177/002182869502600201. S2CID 117821762.
  5. Pammel, L. H. (1928). Reminiscences of early La Crosse, Wisconsin : an account of the men and women who lived in La Crosse and vicinity. Liesenfeld Press. pp. 56–59. OCLC 60493892. Archived from the original on 2005-09-04. L. H. Pammel died in 1928; this book is in the public domain.
  6. The Lasso (1898). Fort Worth University. May 1898. p. 34. MacMillan was the secretary of the class of 1898, and simultaneously an adjunct professor of astronomy.
  7. After Hubble's law was established, Einstein removed the constant, and was quoted as saying that his introduction was "his biggest blunder". See O’Raifeartaigh, Cormac (October 30, 2018). "Investigating the legend of Einstein's "biggest blunder"". Physics Today. doi:10.1063/PT.6.3.20181030a. S2CID 239918622. In the last two decades, the cosmological constant has reappeared to explain the observation that the most distant galaxies are apparently receding from the earth faster than expected from Hubble's law. See Moskowitz, Clara (February 2021). "The Cosmological Constant Is Physics' Most Embarrassing Problem". Scientific American: 25.
  8. "Postulates of Normal Intuition" (p. 39) and "The fourth doctrine of science and its limitations" (p. 117) in Carmichael, R. D.; MacMillan, W. D.; Davis, Harold T.; Hufford, Mason Edward (1927). A debate on the theory of relativity, with an introd. by William Lowe Bryan. Favoring the theory: Robert D. Carmichael [and] Harold T. Davis; opposing the theory: William D. MacMillan [and] Mason E. Hufford.. Open Court Pub. Co. OCLC 225493411.
  9. "William Duncan MacMillan". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  10. Andrews, Donald H. (1930). "Review of The Theory of the Potential by William Duncan McMillan". Journal of Chemical Education. 7 (10): 2530. Bibcode:1930JChEd...7.2530A. doi:10.1021/ed007p2530.
  11. Franklin, Philip (1937). "Book Review: Dynamics of Rigid Bodies". Bulletin of the American Mathematical Society. 43 (3): 158. doi:10.1090/S0002-9904-1937-06494-9.
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