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Carl August von Steinheil

January 01, 1970

Carl August von Steinheil (12 October 1801 – 14 September 1870) was a German physicist, inventor, engineer and astronomer.

Carl August von Steinheil
Born(1801-10-12)12 October 1801
Ribeauvillé, Alsace
Died14 September 1870(1870-09-14) (aged 68)
Munich, Bavaria
Resting placeAlter Südfriedhof, Munich
48°07′38″N 11°33′54″E / 48.127222°N 11.565°E / 48.127222; 11.565
CitizenshipGerman
Alma materUniversity of Erlangen
Known forSteinheil doublet
Earth-return telegraph
Ground (electricity)
Scientific career
FieldsAstronomy, Physics, Engineering, Mathematics
InstitutionsUniversity of Munich
Austrian Trade Ministry
C. A. Steinheil & Söhne
Deutsch-Österreichischer Telegraphenverein
Trade Ministry of Bavaria

Biography edit

 
Reading telescopes by C.A. Steinheil purchased in 1865 on display in the Teylers Instrument Room

Steinheil was born in Ribeauvillé, Alsace. He studied law in Erlangen since 1821. He then studied astronomy in Göttingen and Königsberg. He continued his studies in astronomy and physics while living in his father's manor in Perlachseck near Munich. From 1832 to 1849, Steinheil was professor for mathematics and physics at the University of Munich.

In late 1838 or early 1839, Steinheil, along with Franz von Kobell, used silver chloride and a cardboard camera to make pictures in negative of the Frauenkirche and other Munich buildings, then taking another picture of the negative to get a positive, the actual black and white reproduction of a view on the object. The pictures produced were round with a diameter of 4 cm, the method was later named the “Steinheil method.” Several of these photographs were exhibited by Steinheil throughout April and Summer 1839. In July 1839, Steinheil demonstrated his photography method at Nymphenburg Palace in the presence of Queen Therese.[1][2]

Steinheil was also one of the first to use the daguerreotype in Germany. By December 1839, he made the first portable metal camera in the world. It was nineteen times smaller than the camera sold by Daguerre. At least ten of these cameras were manufactured.[2][3][4]

 
Steinheil and Kobell's silver chloride photograph of Frauenkirche from the Old Academy, between Autumn 1838 and April 1839

In 1846, Steinheil travelled to Naples to install a new system for weight and measure units. Three years later, he was appointed to the Board of Telegraphy of the Austrian Trade Ministry. Steinheil was tasked with designing a telegraph network for the entire empire, and helped to form the Deutsch-Österreichischer Telegraphenverein (German-Austrian Telegraph Society). In 1851, he started the Swiss telegraph network. Steinheil returned Munich as konservator (curator) of the mathematical-physical collections and ministerial secretary in the Trade Ministry of Bavaria.[clarification needed]

In 1854, he founded C. A. Steinheil & Söhne, an optical-astronomical company.[3][4] The company built telescopes, spectroscopes and photometers – one of Steinheil's inventions, used to measure brightness. C.A. Steinheil & Söhne produced large telescopes for observatories in Uppsala, Mannheim, Leipzig, Utrecht.[3][4] The company also produced refractors and reflectors with silver-covered mirrors. The process for creating the silvering was developed by Steinheil's friend Justus Liebig. In 1862, Steinheil's sons started managing the company.

Steinheil died in Munich in Bavaria on 14 September 1870. He was buried in the Alter Südfriedhof cemetery.

Inventions edit

Legacy edit

Some sources state that Steinheilite, a transparent mineral that resembles blue quartz but is actually a form of iolite, was named after Carl von Steinheil.[4] However, the name was in use as early as 1811, too early to be named after Carl von Steinheil, and sources from that time instead attribute it to Fabian Steinheil, the Russian military governor of Finland.[5]

See also edit

References edit

  1. ^ . Archived from the original on 2007-09-29. Retrieved 2006-08-04.
  2. ^ a b Cornwall, James E. (1979). Die Frühzeit der Fotografie in Deutschland 1839 - 1869. Die Männer der ersten Stunden und ihre Verfahren (in German). VWI.
  3. ^ a b c Gilman, D. C.; Peck, H. T.; Colby, F. M., eds. (1905). "Steinheil, Karl August" . New International Encyclopedia (1st ed.). New York: Dodd, Mead.
  4. ^ a b c d Rines, George Edwin, ed. (1920). "Steinheil, Karl August" . Encyclopedia Americana.
  5. ^ Sowerby, James (1811), Exotic mineralogy: or, Coloured figures of foreign minerals: as a supplement to British mineralogy, B. Meredith, p. 173.

External links edit

January 01, 1970
carl, august, steinheil, october, 1801, september, 1870, german, physicist, inventor, engineer, astronomer, born, 1801, october, 1801ribeauvillé, alsacedied14, september, 1870, 1870, aged, munich, bavariaresting, placealter, südfriedhof, munich48, 127222, 1272. Carl August von Steinheil 12 October 1801 14 September 1870 was a German physicist inventor engineer and astronomer Carl August von SteinheilBorn 1801 10 12 12 October 1801Ribeauville AlsaceDied14 September 1870 1870 09 14 aged 68 Munich BavariaResting placeAlter Sudfriedhof Munich48 07 38 N 11 33 54 E 48 127222 N 11 565 E 48 127222 11 565CitizenshipGermanAlma materUniversity of ErlangenKnown forSteinheil doubletEarth return telegraphGround electricity Scientific careerFieldsAstronomy Physics Engineering MathematicsInstitutionsUniversity of MunichAustrian Trade MinistryC A Steinheil amp SohneDeutsch Osterreichischer TelegraphenvereinTrade Ministry of Bavaria Contents 1 Biography 2 Inventions 3 Legacy 4 See also 5 References 6 External linksBiography edit nbsp Reading telescopes by C A Steinheil purchased in 1865 on display in the Teylers Instrument Room Steinheil was born in Ribeauville Alsace He studied law in Erlangen since 1821 He then studied astronomy in Gottingen and Konigsberg He continued his studies in astronomy and physics while living in his father s manor in Perlachseck near Munich From 1832 to 1849 Steinheil was professor for mathematics and physics at the University of Munich In late 1838 or early 1839 Steinheil along with Franz von Kobell used silver chloride and a cardboard camera to make pictures in negative of the Frauenkirche and other Munich buildings then taking another picture of the negative to get a positive the actual black and white reproduction of a view on the object The pictures produced were round with a diameter of 4 cm the method was later named the Steinheil method Several of these photographs were exhibited by Steinheil throughout April and Summer 1839 In July 1839 Steinheil demonstrated his photography method at Nymphenburg Palace in the presence of Queen Therese 1 2 Steinheil was also one of the first to use the daguerreotype in Germany By December 1839 he made the first portable metal camera in the world It was nineteen times smaller than the camera sold by Daguerre At least ten of these cameras were manufactured 2 3 4 nbsp Steinheil and Kobell s silver chloride photograph of Frauenkirche from the Old Academy between Autumn 1838 and April 1839 In 1846 Steinheil travelled to Naples to install a new system for weight and measure units Three years later he was appointed to the Board of Telegraphy of the Austrian Trade Ministry Steinheil was tasked with designing a telegraph network for the entire empire and helped to form the Deutsch Osterreichischer Telegraphenverein German Austrian Telegraph Society In 1851 he started the Swiss telegraph network Steinheil returned Munich as konservator curator of the mathematical physical collections and ministerial secretary in the Trade Ministry of Bavaria clarification needed In 1854 he founded C A Steinheil amp Sohne an optical astronomical company 3 4 The company built telescopes spectroscopes and photometers one of Steinheil s inventions used to measure brightness C A Steinheil amp Sohne produced large telescopes for observatories in Uppsala Mannheim Leipzig Utrecht 3 4 The company also produced refractors and reflectors with silver covered mirrors The process for creating the silvering was developed by Steinheil s friend Justus Liebig In 1862 Steinheil s sons started managing the company Steinheil died in Munich in Bavaria on 14 September 1870 He was buried in the Alter Sudfriedhof cemetery Inventions editGround electricity Print telegraph not made public Electric clock Steinheil script code to print dots on paper via telegraph not used due to the adoption of Morse code Photographic process on silver chloride paper together with Franz von Kobell Steinheil doublet a flint first achromatic doublet Silver coating of curved glass surfaces together with Leon Foucault paving the way for the rise of reflecting telescopes Legacy editSome sources state that Steinheilite a transparent mineral that resembles blue quartz but is actually a form of iolite was named after Carl von Steinheil 4 However the name was in use as early as 1811 too early to be named after Carl von Steinheil and sources from that time instead attribute it to Fabian Steinheil the Russian military governor of Finland 5 See also editNeedle telegraphReferences edit Steinheil Verfahren Archived from the original on 2007 09 29 Retrieved 2006 08 04 a b Cornwall James E 1979 Die Fruhzeit der Fotografie in Deutschland 1839 1869 Die Manner der ersten Stunden und ihre Verfahren in German VWI a b c Gilman D C Peck H T Colby F M eds 1905 Steinheil Karl August New International Encyclopedia 1st ed New York Dodd Mead a b c d Rines George Edwin ed 1920 Steinheil Karl August Encyclopedia Americana Sowerby James 1811 Exotic mineralogy or Coloured figures of foreign minerals as a supplement to British mineralogy B Meredith p 173 External links editCarl August von Steinheil in the German National Library catalogue Retrieved from https en wikipedia org w index php title Carl August von Steinheil amp oldid 1190362280, wikipedia, wiki, book, books, library,

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