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The Historical Origins of Spacetime

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Springer Handbook of Spacetime

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Abstract

The idea of spacetime investigated in this chapter, with a view toward understanding its immediate sources and development, is the one formulated and proposed by Hermann Minkowski in 1908. Until recently, the principle source used to form historical narratives of Minkowski’s discovery of spacetime has been Minkowski’s own discovery account, outlined in the lecture he delivered in Cologne, entitled Space and time [1]. Minkowski’s lecture is usually considered as a bona fide first-person narrative of lived events. According to this received view, spacetime was a natural outgrowth of Felix Klein’s successful project to promote the study of geometries via their characteristic groups of transformations. Or as Minkowski expressed the same basic thought himself, the theory of relativity discovered by physicists in 1905 could just as well have been proposed by some late-nineteenth-century mathematician, by simply reflecting upon the groups of transformations that left invariant the form of the equation of a propagating light wave. Minkowski’s publications and research notes provide a contrasting picture of the discovery of spacetime, in which group theory plays no direct part. In order to relate the steps of Minkowski’s discovery, we begin with an account of Poincaré’s theory of gravitation, where Minkowski found some of the germs of spacetime. Poincaré’s geometric interpretation of the Lorentz transformation is examined, along with his reasons for not pursuing a four-dimensional vector calculus. In the second section, Minkowski’s discovery and presentation of the notion of a world line in spacetime is presented. In the third and final section, Poincaré’s and Minkowski’s diagrammatic interpretations of the Lorentz transformation are compared.

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References

  1. H. Minkowski: Raum und Zeit, Jahresber. Dtsch. Math.-Ver. 18, 75–88 (1909)

    Google Scholar 

  2. H.A. Lorentz: Electromagnetic phenomena in a system moving with any velocity less than that of light, Proc. Sect. Sci. K. Akad. Wet. Amst. 6, 809–831 (1904)

    Google Scholar 

  3. S. Walter, E. Bolmont, A. Coret (Eds.): La Correspondance d’Henri Poincaré, Vol. 2: La correspondance entre Henri Poincaré et les physiciens, chimistes et ingénieurs (Birkhäuser, Basel 2007)

    Google Scholar 

  4. H. Poincaré: Sur la dynamique de l’électron, Rend. Circ. Mat. Palermo 21, 129–176 (1906)

    Google Scholar 

  5. A. Einstein: Zur Elektrodynamik bewegter Körper, Ann. Phys. 17, 891–921 (1905)

    Google Scholar 

  6. J. Gray, S. Walter (Eds.): Henri Poincaré: Trois suppléments sur la découverte des fonctions fuchsiennes (Akademie, Berlin 1997)

    Google Scholar 

  7. S. Lie, G. Scheffers: Vorlesungen über continuierliche Gruppen mit geometrischen und anderen Anwendungen (Teubner, Leipzig 1893)

    Google Scholar 

  8. S. Walter: Breaking in the 4-vectors: The four-dimensional movement in gravitation, 1905–1910. In: The Genesis of General Relativity, Vol. 3, ed. by J. Renn, M. Schemmel (Springer, Berlin 2007) pp. 193–252

    Google Scholar 

  9. R. Marcolongo: Sugli integrali delle equazioni dell’ elettrodinamica, Atti della R. Accademia dei Lincei, Rend. Cl. Sci. Fis. Mat. Nat. 15, 344–349 (1906)

    Google Scholar 

  10. M.J. Crowe: A History of Vector Analysis: The Evolution of the Idea of a Vectorial System (Univ. Notre Dame Press, South Bend 1967)

    Google Scholar 

  11. H. Poincaré: The Value of Science: Essential Writings of Henri Poincaré (Random House, New York 2001)

    Google Scholar 

  12. S. Walter: Hypothesis and convention in Poincaré’s defense of Galilei spacetime. In: The Significance of the Hypothetical in the Natural Sciences, ed. by M. Heidelberger, G. Schiemann (de Gruyter, Berlin 2009) pp. 193–219

    Google Scholar 

  13. H. Poincaré: L’avenir des mathématiques, Rev. Gén. Sci. Pures Appl. 19, 930–939 (1908)

    Google Scholar 

  14. O. Darrigol: Poincaré and light, Poincaré, 1912–2012, Séminaire Poincaré 16 (École polytechnique, Palaiseau 2012) pp. 1–43

    Google Scholar 

  15. H. Poincaré: Sechs Vorträge über ausgewählte Gegenstände aus der reinen Mathematik und mathematischen Physik (Teubner, Leipzig Berlin 1910)

    Google Scholar 

  16. H. Poincaré: La mécanique nouvelle, Rev. Sci. 12, 170–177 (1909)

    Google Scholar 

  17. A.I. Miller: Albert Einstein’s Special Theory of Relativity: Emergence (1905) and Early Interpretation (Addison-Wesley, Reading, MA 1981)

    Google Scholar 

  18. J. Schwermer: Räumliche Anschauung und Minima positiv definiter quadratischer Formen, Jahresber. Dtsch. Math.-Ver. 93, 49–105 (1991)

    Google Scholar 

  19. D.E. Rowe: ‘Jewish mathematics’ at Göttingen in the era of Felix Klein, Isis 77, 422–449 (1986)

    Google Scholar 

  20. H. Minkowski: Geometrie der Zahlen (Teubner, Leipzig 1896)

    Google Scholar 

  21. L. Corry: David Hilbert and the Axiomatization of Physics (1898–1918): From Grundlagen der Geometrie to Grundlagen der Physik (Kluwer, Dordrecht 2004)

    Google Scholar 

  22. D. Cahan: The institutional revolution in German physics, 1865-1914, Hist. Stud. Phys. Sci. 15, 1–65 (1985)

    Google Scholar 

  23. C. Jungnickel, R. McCormmach: Intellectual Mastery of Nature: Theoretical Physics from Ohm to Einstein (University of Chicago Press, Chicago 1986)

    Google Scholar 

  24. L. Pyenson: Physics in the shadow of mathematics: the Göttingen electron-theory seminar of 1905, Arch. Hist. Exact Sci. 21(1), 55–89 (1979)

    Google Scholar 

  25. S. Walter: Hermann Minkowski’s approach to physics, Math. Semesterber. 55(2), 213–235 (2008)

    Google Scholar 

  26. M. Planck: Zur Dynamik bewegter Systeme, Sitzungsber. k. preuss. Akad. Wiss. 542–570 (1907)

    Google Scholar 

  27. M.J. Klein, A.J. Kox, R. Schulmann (Eds.): The Collected Papers of Albert Einstein, Vol. 5, The Swiss Years: Correspondence, 1902–1914 (Princeton University Press, Princeton 1993)

    Google Scholar 

  28. H. Minkowski: Das Relativitätsprinzip, Jahresber. Dtsch. Math.-Ver. 24, 372–382 (1915)

    Google Scholar 

  29. S. Walter: La vérité en géométrie: sur le rejet mathématique de la doctrine conventionnaliste, Philos. Sci. 2, 103–135 (1997)

    Google Scholar 

  30. P. Galison: Minkowski’s spacetime: from visual thinking to the absolute world, Hist. Stud. Phys. Sci. 10, 85–121 (1979)

    Google Scholar 

  31. H. von Helmholtz: Vorträge und Reden, 3rd edn. (Vieweg, Braunschweig 1884)

    Google Scholar 

  32. W.F. Reynolds: Hyperbolic geometry on a hyperboloid, Am. Math. Mon. 100, 442–455 (1993)

    Google Scholar 

  33. H. Minkowski: Die Grundgleichungen für die electromagnetischen Vorgänge in bewegten Körpern, Nachr. K. Ges. Wiss. Göttingen, 53–111 (1908)

    Google Scholar 

  34. A. Sommerfeld: Über die Zusammensetzung der Geschwindigkeiten in der Relativtheorie, Phys. Z. 10, 826–829 (1909)

    Google Scholar 

  35. P.G. Frank: Die Stellung des Relativitätsprinzips im System der Mechanik und der Elektrodynamik, Sitzungsber. Kais. Akad. Wiss. Wien IIA 118, 373–446 (1909)

    Google Scholar 

  36. V. Varičak: Anwendung der Lobatschefskijschen Geometrie in der Relativtheorie, Phys. Z. 11, 93–96 (1910)

    Google Scholar 

  37. S. Walter: The non-Euclidean style of Minkowskian relativity. In: The Symbolic Universe: Geometry and Physics, 1890–1930, ed. by J. Gray (Oxford University Press, Oxford 1999) pp. 91–127

    Google Scholar 

  38. J.J. Stachel, D.C. Cassidy, J. Renn, R. Schulmann: Einstein and Laub on the electrodynamics of moving media. In: The Collected Papers of Albert Einstein, Vol. 2, The Swiss Years: Writings, 1900–1909, ed. by J.J. Stachel, D.C. Cassidy, J. Renn, R. Schulmann (Princeton University Press, Princeton 1989) pp. 503–507

    Google Scholar 

  39. J.J. Stachel, D.C. Cassidy, J. Renn, R. Schulmann (Eds.): The Collected Papers of Albert Einstein, Vol. 2, The Swiss Years: Writings, 1900–1909 (Princeton University Press, Princeton 1989)

    Google Scholar 

  40. M. Born: Besprechung von Max Weinstein, Die Physik der bewegten Materie und die Relativitätstheorie, Phys. Z. 15, 676 (1914)

    Google Scholar 

  41. S. Walter: Minkowski’s modern world. In: Minkowski Spacetime: A Hundred Years Later, ed. by V. Petkov (Springer, Berlin 2010) pp. 43–61

    Google Scholar 

  42. S. Walter: Minkowski, mathematicians, and the mathematical theory of relativity. In: The Expanding Worlds of General Relativity, (Birkhäuser, Boston Basel 1999) pp. 45–86

    Google Scholar 

  43. D.E. Rowe: A look back at Hermann Minkowski’s Cologne lecture ‘Raum und Zeit’, Math. Intell. 31(2), 27–39 (2009)

    Google Scholar 

  44. O. Blumenthal (Ed.): Das Relativitätsprinzip; Eine Sammlung von Abhandlungen (Teubner, Leipzig 1913)

    Google Scholar 

  45. A. Einstein: Über die Möglichkeit einer neuen Prüfung des Relativitätsprinzips, Ann. Phys. 23, 197–198 (1907)

    Google Scholar 

  46. S. Walter: Poincaré on clocks in motion, Stud. Hist. Philos. Modern Phys. (2014), doi: 10.1016/j.shpsb.2014.01.003

    Google Scholar 

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Authors and Affiliations

  1. LHSP-Archives Henri-Poincaré (CNRS, UMR 7117), University of Lorraine, 91 avenue de la Libération, BP 454, 54001, Nancy, France

    Scott Walter

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Editors and Affiliations

  1. Department of Physics, Pennsylvania State University, 16802, University Park, PA, USA

    Abhay Ashtekar

  2. Institute for Foundational Studies Hermann Minkowski, Montreal, Quebec, Canada

    Vesselin Petkov

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Walter, S. (2014). The Historical Origins of Spacetime. In: Ashtekar, A., Petkov, V. (eds) Springer Handbook of Spacetime. Springer Handbooks. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-41992-8_2

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  • DOI: https://doi.org/10.1007/978-3-642-41992-8_2

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