Herbert Dingle

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Herbert Dingle (2 August 1890, London – 4 September 1978, Kingston upon Hull) was an English physicist and natural philosopher, who served as president of the Royal Astronomical Society from 1951 to 1953. He is best known for his opposition to Albert Einstein's special theory of relativity and the protracted controversy that this provoked.


Dingle was born in London, but spent his early years in Plymouth, where he was taken following the death of his father, and where he attended Plymouth Science, Art and Technical Schools. Due to lack of money, he left school at the age of 14 and found employment as a clerk, a job which he held for 11 years. At age 25 he won a scholarship to the Imperial College, London, from which he graduated in 1918. In that same year, Dingle married Alice Westacott who later gave birth to a son. As a Quaker, Dingle was exempt from military service during World War I. He took a position as a Demonstrator in the Physics Department, and devoted himself to the study of spectroscopy (following his mentor Alfred Fowler), especially its applications in astronomy. He was elected a Fellow of the Royal Astronomical Society in 1922.

Dingle was a member of the British government eclipse expeditions of 1927 (Colwyn Bay) and 1932 (Montreal), both of which failed to make any observations due to overcast skies. He spent most of 1932 at the California Institute of Technology as a Rockefeller Foundation Scholar. There he met the theoretical cosmologist R. C. Tolman, and studied relativistic cosmology.

Dingle became a professor of Natural Philosophy at Imperial College in 1938, and was a professor of History and Philosophy of Science at University College London from 1946 until his retirement in 1955. Thereafter he held the customary title of Professor Emeritus from that institution. He was one of the founders of the British Society for the History of Science, and served as President from 1955 to 1957.[1] He founded what later became the British Society for the Philosophy of Science as well as its journal, the British Journal for The Philosophy of Science.[1]

Dingle was the author of "Modern Astrophysics" (1924) and "Practical Applications of Spectrum Analysis" (1950). He also wrote the essay "Relativity for All" (1922)[2] and the monograph The Special Theory of Relativity (1940). A collection of Dingle's lectures on the history and philosophy of science was published in 1954.[3][4] He also took an interest in English literature, and published Science and Literary Criticism in 1949, and The Mind of Emily Brontë in 1974.


Dingle participated in two highly public and polemical disputes. The first took place during the 1930s, triggered by Dingle's criticism of E. A. Milne's cosmological model and the associated theoretical methodology, which Dingle considered overly speculative and not based on empirical data.[5] A. S. Eddington was another target of Dingle's critique, and the ensuing debate eventually involved nearly every prominent astrophysicist and cosmologist in Britain. Dingle characterized his opponents as "traitors" to the scientific method, and called them "the modern Aristotelians" because he believed their theorizing was based on rationalism rather than empiricism. Some other scientists, notably Willem de Sitter, while not endorsing Dingle's more extreme rhetoric, nevertheless agreed with Dingle that the cosmological models of Milne, Eddington, and others were overly speculative. However, most modern cosmologists subsequently accepted the validity of the hypothetico-deductive method of Milne.[6][7]

The second dispute began in the late 1950s, following Dingle's retirement and centered on the theory of special relativity.[8] [9] Initially Dingle argued that, contrary to the usual understanding of the famous twin paradox, special relativity did not predict unequal aging of twins, one of whom makes a high-speed voyage and returns to Earth, but he then came to realize and acknowledge that his understanding had been mistaken. He then began to argue that special relativity was empirically wrong in its predictions, although experimental evidence showed he was mistaken about this.[10] Ultimately Dingle re-focused his criticism to claim that special relativity was logically inconsistent: "The theory [special relativity] unavoidably requires that A works more slowly than B and B more slowly than A --which it requires no super-intelligence to see is impossible."[11] Hence he asserted that the well-known reciprocity of the Lorentz transformation is self-evidently impossible.[12] As Whitrow explained in his review of "Science at the Crossroads", this is not correct.[1][13]

Dingle carried on a highly public and contentious campaign to get this conclusion accepted by the scientific community, mostly through letters to the editors of various scientific periodicals, including Nature. Dozens of scientists responded with answers to Dingle's claims, explaining why the reciprocity of the Lorentz transformation does not entail any logical inconsistency,[14] but Dingle rejected all the explanations.[15] This culminated in his 1972 book, Science at the Crossroads in which Dingle stated that "a proof that Einstein's special theory of relativity is false has been advanced; and ignored, evaded, suppressed and, indeed, treated in every possible way except that of answering it, by the whole scientific world." He also warned: "Since this theory is basic to practically all physical experiments, the consequences if it is false, modern atomic experiments being what they are, may be immeasurably calamitous."[16] The consensus in the physics community is that Dingle's objections to the logical consistency of special relativity were unfounded.[1][17][18][19]


  1. 1.0 1.1 1.2 1.3 Whitrow, G.J. (1980). "Obituaries: Herbert Dingle". Quarterly Journal of the Royal Astronomical Society. Royal Astronomical Society. 21: 333–338. Bibcode:1980QJRAS..21..333W.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  2. Relativity for All (1922)
  3. The Scientific Adventure: Essays in the History and Philosophy of Science, Pitman 1952, re-published in 1970 by Ayer Publishing.
  4. The Scientific Adventure: Essays in the History and Philosophy of Science Pitman 1953
  5. "Cosmology: Methodological Debates in the 1930s and 1940s" from the Stanford Encyclopedia of Philosophy
  6. Thomas Lepeltier, "Edward Milne's influence on modern cosmology", Annals of Science, 1464-505X, Volume 63, Issue 4, 2006, Pages 471 – 481, which states that "The hypothetico-deductive method is now an integral part of cosmology...".
  7. Norriss S. Hetherington, Cosmology, 1993. See particularly the article by Georege Gale and John Urani, stating that "This view [the hypothetico-deductive method], quintessentially Milne, survives the attacks of Dingle and the other empiricist traditionalists, in the end becoming the official story of the scientific nature of relativistic cosmology...
  8. Dingle, H. (October 14, 1967). "The Case against Special Relativity". Nature. 216 (5111): 119. Bibcode:1967Natur.216..119D. doi:10.1038/216119a0.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  9. McCrea, W. H. (October 14, 1967). "Why The Special Theory of Relativity is Correct". Nature. 216 (5111): 122. Bibcode:1967Natur.216..122M. doi:10.1038/216122a0.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  10. Giulini, Domenico, Special Relativity: A First Encounter, 100 Years since Einstein, 2005.
  11. Dingle, Science at the Crossroads, p. 17.
  12. Commentary on the Dingle Dispute in the journal Nature, 1967, reproduced in Dingle's 1972 book Science at the Crossroads.
  13. The Lorentz transformation is x'=(x−vt)β, t'=(t−vx/c2)β, and its algebraic inverse is x=(x'+vt')β, t=(t'+vx'/c2)β, where β=1/√(1−v2/c2). These equations imply t'=βt at x=0, and t=βt' at x'=0. Dingle alleged that these two facts are mutually contradictory, because the first implies t'/t =β and the second implies t/t'=β. However, these ratios apply to two different conditions, namely, x=0 and x'=0 respectively. Hence, contrary to Dingle's assertion, there is no contradiction, nor are these relations merely "appearances". They are the actual ratios of the inertial time coordinates along two different directions in space-time.
  14. See for example: Crawford, Frank S., Bull. Inst. Phys., 7, 314 (1956); Fremlin, J. H., Nature, 180, 499 (1957); Darwin, Charles, Nature, 180, 976 (1957); Crawford, F. S., Nature, 179, 1071 (1957); Landsberg, P. T. , Math. Gaz., 47, 197 (1964); McCrea, W. H., Nature, 216, 122 (1967); Fullerton, J. H. , Nature, 216, 524 1967); Barrett, W. , Nature, 216, 524 (1967); Landsberg, P. T., Nature, 220, 1182 (1968); Fremlin, F. H., Nature, 244, 27 (1973); Jacob, R., Nature, 244, 27 (1973); Whippman, M., Nature, 244, 27 (1973); Stedman, G. E., Nature, 244, 27 (1973); Ziman, J., Nature, 241, 143 (1973); Ellis, G. F. R., Nature, 242, 143 (1973); Armstrong, H. L., Nature, 244, 26 (1973).
  15. For example, Dingle wrote in a Letter to Nature in 1957 "Dr. Frank S. Crawford's further communication is welcome as the first attempt to answer my arguments. Hitherto they have been ignored, and independent reasons, which I reject, have been adduced for the opposite conclusion." Sixteen years later he wrote wearily, "It would be profitless to deal separately with the latest "answers" to my question; their diversity tells its own tale, and the writers may see their misjudgments corrected in my book."
  16. Dingle, Herbert (1972). Science at the Crossroads. London: Martin Brian & O'Keeffe. ISBN 0-85616-060-1.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  17. Prokhovnik, S.J., The Logic of Special Relativity, Cambridge University Press, 1967
  18. Davies, P. C. W. , About Time, Simon and Schushter, 1995
  19. See also the earlier literature on the twin paradox, for example, Lorentz, H. A. , The Theory of Electrons 1909, and the associated lecture notes of 1910-1912 ("Lectures on Theoretical Physics" vol. III, 1931), in which he describes Dingle's reciprocity paradox involving the Lorentz transformation half a century before Dingle did, and gives the resolution. "Attention must be drawn now to a remarkable reciprocity that has been pointed out by Einstein... The behavior of measuring rods and clocks in translational motion, when viewed superficially, give rise to a remarkable paradox which on closer examination, however, vanishes." Miller, A.I., Albert Einstein's Special Theory of Relativity, Springer, 1998. And in another lecture series, Lorentz explains the full clock (or twin) paradox (Das Relativitätsprinzip. Drei Vorlesungen gehalten in Teylers Stiftung zu Haarlem, 1914)

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