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Leonhard Sohncke

From Wikipedia, the free encyclopedia
Leonhard Sohncke
Born( 1832-02-22)22 February 1832
Died1 November 1897(1897-11-01) (aged 65)
Alma materUniversity of Halle
Known forSpace groups
Spouse
Elise Bernhardi
(m. 1866)
Childrentwo daughters
Scientific career
FieldsMathematics, Crystallography, Physics, Meteorology
Institutions

Leonhard Sohncke (22 February 1842 in Halle (Kingdom of Prussia) – 1 November 1897 in Munich (German Empire)) was a German mathematician, physicist, and mineralogist.

Life and career

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Leonhard Sohncke was born as son of Ludwig Adolf Sohncke, a professor for mathematics in Halle.[1] Leonhard Sohncke studied mathematics and sciences at the University in his native town,[1] and passed the examination for high school teachers in 1862. With this qualification he became teacher at the Collegium Fridericianum in Königsberg in the Prussian province of East Prussia,[2][3] and worked in this position until 1871. In this time he wrote his doctoral thesis in mathematics, which he submitted to Halle University, where he was in contact with Eduard Heine and Carl Neumann.[2] With the duty of twenty-two lessons a week as teacher,[2] he additionally continued his studies at the University of Königsberg, where he attended courses at the Königsberg Seminar for Physics, once founded by his father L. A. Sohncke together with Carl Gustav Jacob Jacobi and Franz Ernst Neumann, the father of Carl Neumann.[2] Franz Neumann interested Sohncke for mineralogical problems, and he eventually qualified himself as private lecturer at the university in 1869 with a habilitation thesis in mineralogy.

Two years later he was claimed as professor of physics to the Polytechnical School in Karlsruhe,[1] which was the first German Technische Hochschule and the preceding institution of today's Karlsruhe Institute of Technology. He was also appointed head of the meteorological observatory with responsibility for the meteorological service of the Grand Duchy of Baden,[4][1] and started research on meteorology.[5] In the academic year 1878/79 Sohncke was elected Director of the Karlsruhe Institute.[6] In 1883, he followed a claim to the University of Jena as first director of the new founded institute of physics, after Emil Warburg had declined;[7] there he drew his attention mainly to experimental physics.[8][7] Finally in 1886, he moved to the Technical University of Munich, where he worked until his death. Sohncke was a successful academic teacher. His lectures in Jenas had the greatest frequency of students.[9]

In 1866, Sohncke married his cousin Elise Berhardi; they had two daughters.[1] He died from a kidney disease on 1 November 1897 in Munich.[5]

Scientific work

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One of Sohncke's teaching models for space groups

Leonhard Sohncke wanted to understand the relations between the structure of crystals and their physical properties.[10] A major experimental study dealt with the cohesion of rock salt by measuring its ultimate tensile strength in the different crystallographic directions (1869). He investigated the influence of temperature on the optical rotation of crystalline material both theoretically and experimentally (1875),[11] and found that natural light is affected by electromagnetic forces in the same way as polarized light (1886).[12] Leonhard Sohncke is mainly known for his mathematical studies on the structure of crystals that kept him for more than a decade. He combined the 14 Bravais lattices with the rotation axes and the screw axes and theryby got the totally 65 space groups that are commonly called "Sohncke groups", in which chiral crystal structures form (1879).[13] Sohncke discussed thoroughly the results of previous researches on that matter, especially Auguste Bravais and Jordan.[14] This sense for history of science led him write a special publication on Johann F. C. Hessel (1891), who had discovered the 32 crystallographic point groups in 1830, but was nearly completely ignored by his colleagues.[15]

Early in Königsberg (1867), he demonstrated a presumption of the Göttingen astronomer Wilhelm Klinkerfues on an influence of a star's motion to the refraction of its light, with consequence of breaking the Doppler effect, was in error.

In Jena, he researched on Newton's rings and thin-film interference, in cooperation with Albert Wangerin in Halle, whom he knew from the Königsberg Seminar of Physics; Wangerin took the theoretical part, and Sohncke the experimental one. They found errors in the previous concepts on this matter; in contrary to preceding research they took into account the thickness of the plane glass and the extension of the source of light.[16][17][18] Other cooperation partners in Jena were Ernst Abbe and Siegfried Czapski on the field of optical polarization.[19]

Sohncke developed a theory on atmosperical electricity applying Faraday's discovery, that friction of water on ice causes static electricity. to the atmosphere.[4][19]

Sohncke was enganged in the popularization of science, and gave general comprehensible lectures, most of them in his Jena and Munich time, some of them were edited in 1892.[1][20] In Karlsruhe, he was co-founder of the "Oberrheinischer Geologischer Verein" (Upper Rhenanian Geological Association).[21] In Jena, he was member of the "Medizinisch-naturwissenschaftliche Gesellschaft" (Association for Medicin and Science).[22] In Munich, his interest in meteorology let him come in contact to the airship and balloon community. He was co-founder and chairman of the "Münchener Vereinigung für Luftschiffahrt" (Munich Association for Airshipping), and published meteorological results taken from balloon journeys together with Sebastian Finsterwalder.[1] Sohncke and Finsterwalder were the scientific observers during the first balloon night flight of the Munich Association.[23]

Honours

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Leonhard Sohncke was awarded the following orders, titles, and memberships of scientific institutions.[24]

Selected writings

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References

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  1. ^ a b c d e f g Günther 1908.
  2. ^ a b c d Olesko 1991, pp. 341–342.
  3. ^ Ellendt, G. (1898), "Lehrer und Abiturienten des Königlichen Friedrichs-Kollegiums zu Königsberg Pr.", Geschichte des Königlichen Friedrichs-Kollegiums zu Königsberg Pr. 1698–1898 von G. Zippel (in German), Königsberg: Hartung, ISBN 978-5-88354-715-6 p. 34
  4. ^ a b Schlote & Schneider 2011, p. 244.
  5. ^ a b Erk 1898, p. 3.
  6. ^ Hoepke, Klaus-Peter (2007), Geschichte der Fridericiana. Stationen in der Geschichte der Univertsität Karlsruhe (TH) von der Gründung 1825 bis zum Jahr 2000 (PDF), Karlsruhe: Universitätsverlag p. 164
  7. ^ a b Schlote & Schneider 2011, p. 119.
  8. ^ Friedrich-Schiller-Universität Jena, Erstes Physikalisches Institut (in German), retrieved 29 April 2024
  9. ^ Schlote & Schneider 2011, pp. 170–171.
  10. ^ Olesko 1991, p. 290.
  11. ^ Olesko 1991, p. 369.
  12. ^ Schlote & Schneider 2011, p. 243.
  13. ^ Scholz 1989, pp. 110–114, 121.
  14. ^ Scholz 1989, pp. 111.
  15. ^ Scholz 1989, pp. 48, 62.
  16. ^ Schlote, Karl-Heinz; Schneider, Martina (2009), Von Schweiggers erstem Galvanometer bis zu Cantors Mengenlehre. Zu den Wechselbeziehungen zwischen Mathematik und Phydsik an der Universität Halle–Wittenberg in der Zeit von 1817 bis 1890 (in German), Harri Deutsch, ISBN 978-3-8171-1841-0 pp. = 244–247
  17. ^ Schlote & Schneider 2011, p. 242.
  18. ^ Olesko 1991, p. 370.
  19. ^ a b Olesko 1991, p. 405.
  20. ^ Schlote & Schneider 2011, p. 290.
  21. ^ Oberrheinischer Geologischer Verein: Zur Gründungsgeschichte des OGV
  22. ^ Schlote & Schneider 2011, p. 289–290, 292.
  23. ^ Sohncke, L.; Finsterwalder, S. (1893), "Die erste wissenschaftliche Nachtfahrt des Münchener Vereins für Luftschiffahrt", in Königliche Meteorologische Centralstation (ed.), Beobachtungen der Meteorologischen Stationen im Königreich Bayern. Anhang I (in German), Munich, pp. 1–9{{citation}}: CS1 maint: location missing publisher (link)
  24. ^ Personalstand der Königlich Bayerischen Technischen Hochschule zu München im Sommer-Semester 1897 (PDF) (in German), 1897, p. 4
  25. ^ Bavarian Academy of Sciences and Humanities: Prof. Dr. Leonhard Sohncke

Sources

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