Paul Gerber Explained

Paul Gerber (1854 Berlin, Germany  - 13 August 1909 Freiburg im Breisgau, Germany) was a German physics teacher. He studied in Berlin from 1872 to 1875. In 1877 he became a teacher at the Realgymnasium (high school) in Stargard in Pommern. Gerber is known for his controversial work on the speed of gravity and the perihelion shift of Mercury's orbit.

Gravitation

Basic concept

Based on the electrodynamic laws of Wilhelm Eduard Weber, Carl Friedrich Gauß, and Bernhard Riemann, between 1870 and 1900 many scientists tried to combine gravitation with a finite propagation speed and tried to derive the correct value for the perihelion shift of Mercury's orbit.^{[1] [2]} In 1890 Maurice Lévy succeeded in doing so by combining the laws of Weber and Riemann, whereby the speed of gravity is equal to the speed of light in his theory.^[3] However, because the basic laws of Weber and others were wrong (for example, Weber's law was superseded by Maxwell's equations), those hypotheses were rejected.

A variation of those superseded theories (albeit not directly based on Weber's theory) was the one of Gerber, which he developed in 1898 and 1902.^[4] By assuming a finite speed of gravity, he developed the following expression for the gravitational potential:

Using the binomial theorem to second order it follows: According to Gerber, the relation of the speed of gravity (c) and the perihelion shift (Ψ) is: where , ε = Eccentricity, a = Semi-major axis, τ = Orbital period.So Gerber was able to calculate a speed of gravity of ca. 305 000 km/s, slightly more than the speed of light.^{[5] [6]}

Controversy

Gerber's formula gives for the perihelion shift:

It was noted by the Einstein- and relativity critic Ernst Gehrcke in 1916,^[7] that this formula is mathematically identical to Albert Einstein's formula (1915) for general relativity.^[8] , where e = Eccentricity, a = Semi-major axis, T = Orbital period.So Gehrcke initiated a reprint of Gerber's 1902-paper in the Annalen der Physik in 1917, where he questioned the priority of Einstein and tried to prove a possible plagiarism by him.^[9] However, according to Albrecht Fölsing,^[10] Klaus Hentschel^[11] and Roseveare,^[12] those claims were rejected, because soon after Gerber's paper was reprinted, scientists like Hugo von Seeliger,^[13] Max von Laue^[14] published some papers, where it was claimed that Gerber's theory is inconsistent and his formula is not the consequence of his premises. And Einstein wrote in 1920:^[15]

In the recent past, Roseveare argued that Gerber's derivation is unclear, however, he claimed to have found the way by which Gerber possibly found his result (although Roseveare's derivation was criticized as well^[16]). More importantly, Roseveare showed that Gerber's theory is in conflict with experience: the value for the deflection of light in the gravitational field of the sun is too high in Gerber's theory, and if the relativistic mass is considered, also Gerber's prediction for the perihelion advance is wrong.

References

Primary sources

• Einstein, A.. 1915 . Erklärung der Perihelbewegung des Merkur aus der allgemeinen Relativitätstheorie . Sitzungsberichte der Preussischen Akademie der Wissenschaften. 2. 831–839.
• Einstein, A. . 1916 . Die Grundlage der allgemeinen Relativitätstheorie . Annalen der Physik . 49 . 769–822 . 10.1002/andp.19163540702 . A. . 7 . 1916AnP...354..769E . dead . https://web.archive.org/web/20060823125203/http://www.physik.uni-augsburg.de/annalen/history/papers/1916_49_769-822.pdf . 2006-08-23.
• Einstein, A. . 1920 . Meine Antwort - Über die anti-relativitätstheoretische G.m b.H . Berliner Tageblatt . 402 . dead . https://web.archive.org/web/20091214132012/http://www.olaf-eitner.de/EIGENES/POTSDAM/EINSTEIN/artikel1.htm . 2009-12-14.
• Gehrcke, E.. 1916. Zur Kritik und Geschichte der neueren Gravitationstheorien. Annalen der Physik. 51. 119–124. 10.1002/andp.19163561704. 17. 1916AnP...356..119G .
• Gerber, P.. 1898. Die räumliche und zeitliche Ausbreitung der Gravitation. Zeitschrift für Mathematik und Physik. 43. 93–104. s:de:Die räumliche und zeitliche Ausbreitung der Gravitation.
• Gerber, P.. 1898. The Spatial and Temporal Propagation of Gravity. Journal of Mathematics and Physics (English Translation). 43. 93–104.
• Gerber, P.. 1902. 1917. Die Fortpflanzungsgeschwindigkeit der Gravitation. Annalen der Physik. 52. 415–444. 10.1002/andp.19173570404. 4. 1917AnP...357..415G . (Originally published in Programmabhandlung des städtischen Realgymnasiums zu Stargard i. Pomm., 1902)
• Laue, M.. 1917. Die Fortpflanzungsgeschwindigkeit der Gravitation. Bemerkungen zur gleichnamigen Abhandlung von P. Gerber. Annalen der Physik. 53. 214–216. 10.1002/andp.19173581103. 11. 1917AnP...358..214V .
• Laue, M.. 1920. Historisch-Kritisches über die Perihelbewegung des Merkur . Naturwissenschaften. 8. 37. 735–736. 10.1007/BF02449026. 1920NW......8..735V . 19680358.
• Lévy. 1890. Sur l'application des lois électrodynamiques au mouvement des planètes. Comptes Rendus. 110. 545–551.
• Oppenheim, S.. 1917. Zur Frage nach der Fortpflanzungsgeschwindigkeit der Gravitation. Annalen der Physik. 53. 163–168. 10.1002/andp.19173581005. 10. 1917AnP...358..163O .
• Seeliger, H.. 1917. Bemerkungen zu P. Gerbers Aufsatz: "Die Fortpflanzungsgeschwindigkeit der Gravitation". Annalen der Physik. 53. 31–32. 10.1002/andp.19173580904. 9. 1917AnP...358...31S .

Secondary sources

• Book: Fölsing, A.. 1993–1998. Albert Einstein: a biography. New York. Penguin. 978-0-14-023719-1. registration.
• Hentschel, Klaus: „Interpretationen und Fehlinterpretationen der speziellen und der allgemeinen Relativitätstheorie durch Zeitgenossen Albert Einsteins“, Basel: Birkhäuser, 1990 (= Science Networks, 6), pp. 150–162.
• Oppenheim, S.. 1920. Kritik des newtonschen Gravitationsgesetzes. Encyklopädie der Mathematischen Wissenschaften mit Einschluss Ihrer Anwendungen. 6.2.2. 80–158.
• Book: Roseveare, N. T. 1982. Mercury's perihelion, from Leverrier to Einstein. Oxford. University Press. 978-0-19-858174-1. registration.
• Zenneck, J. . 1901 . Gravitation . . 5 . 1 . 25–67 .

Notes

1. Zenneck 1901, 46ff
2. Oppenheim 1920, 153ff
3. Levy 1890
4. Gerber 1898, 1902
5. Zenneck 1901, 49ff
6. Oppenheim 1920, 156f
7. Gehrcke (1916)
8. Einstein (1915 and (1916), 822
9. Gerber 1917
10. Fölsing 1993, Chap. 5
11. Hentschel 1990, pp.150ff.
12. Roseveare 1982, Chap. 6
13. Seeliger (1917)
14. Laue (1917, 1920)
15. Einstein 1920
16. MathPages: Gerber's Gravity, Gerber’s Light Deflection

External links

1. Zenneck 1901, 46ff
2. Oppenheim 1920, 153ff
3. Levy 1890
4. Gerber 1898, 1902
5. Zenneck 1901, 49ff
6. Oppenheim 1920, 156f
7. Gehrcke (1916)
8. Einstein (1915 and (1916), 822
9. Gerber 1917
10. Fölsing 1993, Chap. 5
11. Hentschel 1990, pp.150ff.
12. Roseveare 1982, Chap. 6
13. Seeliger (1917)
14. Laue (1917, 1920)
15. Einstein 1920
16. MathPages: Gerber's Gravity, Gerber’s Light Deflection