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Emil Johann Wiechert (26 December 1861 – 19 March 1928) was a German physicist and geophysicist who made many contributions to both fields, including presenting the first verifiable model of a layered structure of the Earth and being among the first to discover the electron. He went on to become the world's first Professor of Geophysics at the University of Göttingen.[1]
[[File:Emil Wiechert.jpg|thumb|Emil Wiechert.]]'''Emil Johann Wiechert''' (26 December 1861 – 19 March 1928) was a German physicist and geophysicist who made many contributions to both fields, including presenting the first verifiable model of a layered structure of the Earth and being among the first to discover the electron. He went on to become the world's first Professor of Geophysics at the University of Göttingen.


== Early years ==
== Early years ==
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== Career ==
== Career ==


While at Königsberg, Wiechert was investigating the nature of X-rays and became one of the first to discover that cathode rays are made up of particle streams. He correctly measured the Mass-to-charge ratio of these particles but failed to take the final step and explain that these particles were a new type of elementary particle: the electron. Wiechert was also interested in fields outside of fundamental physics and in 1896, he published the first verifiable model of the Earth's interior as a series of shells. Here he concluded that the difference between the density of the Earth's surface rocks and the mean density of the Earth meant that the Earth must have a heavy iron core. These were the foundations that one of Wiechert's students, [[Beno Gutenberg (nonfiction)|Beno Gutenberg]], used to discover the three-layered Earth in 1914.
While at Königsberg, Wiechert was investigating the nature of X-rays and became one of the first to discover that cathode rays are made up of particle streams. He correctly measured the mass-to-charge ratio of these particles but failed to take the final step and explain that these particles were a new type of elementary particle: the electron. Wiechert was also interested in fields outside of fundamental physics and in 1896, he published the first verifiable model of the Earth's interior as a series of shells. Here he concluded that the difference between the density of the Earth's surface rocks and the mean density of the Earth meant that the Earth must have a heavy iron core. These were the foundations that one of Wiechert's students, [[Beno Gutenberg (nonfiction)|Beno Gutenberg]], used to discover the three-layered Earth in 1914.


As part of [[Felix Klein (nonfiction)|Felix Klein]]'s efforts to re-establish the University of Göttingen as a world leading research center, Wiechert's tutor, [[Woldemar Voigt (nonfiction)|Woldemar Voigt]], was lured away from Königsberg and took Wiechert with him. He had initially hoped to become a Professor of theoretical physics but was eventually invited by Klein to found the world's first Institute of Geophysics, becoming the world's first Professor of Geophysics in 1898. He would remain there for the rest of his career, mentoring many students who became world-leading geophysicists and seismologists, including Karl Bernhard Zoeppritz and Beno Gutenberg.
As part of [[Felix Klein (nonfiction)|Felix Klein]]'s efforts to re-establish the University of Göttingen as a world leading research center, Wiechert's tutor, [[Woldemar Voigt (nonfiction)|Woldemar Voigt]], was lured away from Königsberg and took Wiechert with him. He had initially hoped to become a Professor of theoretical physics but was eventually invited by Klein to found the world's first Institute of Geophysics, becoming the world's first Professor of Geophysics in 1898. He would remain there for the rest of his career, mentoring many students who became world-leading geophysicists and seismologists, including Karl Bernhard Zoeppritz and Beno Gutenberg.
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* Emil Wiechert (1861 – 1928). Joachim R. R. Ritter & Johannes Schweitzer. "Archived copy" (PDF). Archived from the original (PDF) on 19 March 2012. Retrieved 2012-03-13.
* Emil Wiechert (1861 – 1928). Joachim R. R. Ritter & Johannes Schweitzer. "Archived copy" (PDF). Archived from the original (PDF) on 19 March 2012. Retrieved 2012-03-13.
* Schröder, W. (2010). "History of geophysics". Acta Geodaetica et Geophysica Hungarica. 45 (2): 253–261. doi:10.1556/AGeod.45.2010.2.9.
* Schröder, W. (2010). "History of geophysics". Acta Geodaetica et Geophysica Hungarica. 45 (2): 253–261. doi:10.1556/AGeod.45.2010.2.9.
* Some Aspects in Emil Wiechert's Scientific Work. Wilfried Schroeder. http://verplant.org/history-geophysics/Wiechert.htm
* ''Some Aspects in Emil Wiechert's Scientific Work''. [[Wilfried Schroeder (nonfiction)|Wilfried Schroeder]]. http://verplant.org/history-geophysics/Wiechert.htm
Angenheister, G.H., (1928). Emil Wiechert. Nachrichten von der Gesellschaft der Wissenschaften zu Göttingen, Geschäftliche Mitteilungen, 53-62.
Angenheister, G.H., (1928). Emil Wiechert. Nachrichten von der Gesellschaft der Wissenschaften zu Göttingen, Geschäftliche Mitteilungen, 53-62.


Latest revision as of 17:35, 18 March 2020

Emil Wiechert.

Emil Johann Wiechert (26 December 1861 – 19 March 1928) was a German physicist and geophysicist who made many contributions to both fields, including presenting the first verifiable model of a layered structure of the Earth and being among the first to discover the electron. He went on to become the world's first Professor of Geophysics at the University of Göttingen.

Early years

Wiechert was born in Tilsit, Province of Prussia, the son of Johann and Emilie Wiechart. After his father died, his mother, Emilie, moved to Königsberg so that Emil could study at the University of Königsberg. Owing to financial difficulties, he took longer than normal to complete his education and was finally awarded a Ph.D. on 1 February 1889. In October 1890 he received his Habilitation in Physics and by 1896, he had achieved the title of Professor. In 1898, he was appointed to the world's first Chair of Geophysics at the University of Göttingen.

Career

While at Königsberg, Wiechert was investigating the nature of X-rays and became one of the first to discover that cathode rays are made up of particle streams. He correctly measured the mass-to-charge ratio of these particles but failed to take the final step and explain that these particles were a new type of elementary particle: the electron. Wiechert was also interested in fields outside of fundamental physics and in 1896, he published the first verifiable model of the Earth's interior as a series of shells. Here he concluded that the difference between the density of the Earth's surface rocks and the mean density of the Earth meant that the Earth must have a heavy iron core. These were the foundations that one of Wiechert's students, Beno Gutenberg, used to discover the three-layered Earth in 1914.

As part of Felix Klein's efforts to re-establish the University of Göttingen as a world leading research center, Wiechert's tutor, Woldemar Voigt, was lured away from Königsberg and took Wiechert with him. He had initially hoped to become a Professor of theoretical physics but was eventually invited by Klein to found the world's first Institute of Geophysics, becoming the world's first Professor of Geophysics in 1898. He would remain there for the rest of his career, mentoring many students who became world-leading geophysicists and seismologists, including Karl Bernhard Zoeppritz and Beno Gutenberg.

Contributions and Influence

During his career he made many other important contributions, writing a number of scientific papers, including a pioneering work on how seismic waves propagate through the Earth. He also devised an improved seismograph and created the field of geological prospecting using small, artificially-created earthquakes. Wiechert was also interested in theoretical physics, such as the theory by Albert Einstein. He discussed the role of the ether and related questions with Hendrik Antoon Lorentz and others.

He married Helene Ziebarth, a lawyer's daughter, in 1908; the couple did not have children.

Awards and honors

  • Corresponding member of the Berlin Academy of Science, 1912.
  • The crater Wiechert on the Moon is named after him.

See also

References

  • Bormann, P. (Ed.). (2012). Dedication to the 150th birthday of Emil WIECHERT (1861-1928). In P. Bormann (Ed.), New Manual of Seismological Observatory Practice 2 (NMSOP 2) (pp. 1-2). Potsdam: Deutsches GeoForschungsZentrum GFZ.
  • Emil Wiechert (1861 – 1928). Joachim R. R. Ritter & Johannes Schweitzer. "Archived copy" (PDF). Archived from the original (PDF) on 19 March 2012. Retrieved 2012-03-13.
  • Schröder, W. (2010). "History of geophysics". Acta Geodaetica et Geophysica Hungarica. 45 (2): 253–261. doi:10.1556/AGeod.45.2010.2.9.
  • Some Aspects in Emil Wiechert's Scientific Work. Wilfried Schroeder. http://verplant.org/history-geophysics/Wiechert.htm

Angenheister, G.H., (1928). Emil Wiechert. Nachrichten von der Gesellschaft der Wissenschaften zu Göttingen, Geschäftliche Mitteilungen, 53-62.

External links

  • Works by or about Emil Wiechert at Internet Archive
  • Emil Wiechert (1861–1928): Esteemed seismologist, forgotten physicist
  • Emil Wiechert with his seismograph
  • Photographs of the Wiechert Seismograph used in the Lick Observatory from the Lick Observatory Records Digital Archive, UC Santa Cruz Library's Digital Collections
  • Scott, Tom; Wolfgang Brunk. "Making Artificial Earthquakes with a Four-Tonne Steel Ball" (video). YouTube. Tom Scott. Retrieved 12 February 2018.
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