Anders Jonas Ångström

From Wikipedia, the free encyclopedia
(Redirected from Anders Ångström)
Anders Jonas Ångström
Anders Jonas Ångström
Born(1814-08-13)13 August 1814
Died21 June 1874(1874-06-21) (aged 59)
Uppsala, Sweden
Alma materUppsala University
Known forSpectroscopy
Airglow
AwardsRumford Medal (1872)
Scientific career
FieldsPhysics, Astronomy

Anders Jonas Ångström (Swedish: [ˈânːdɛʂ ˈjûːnas ˈɔ̂ŋːstrœm]; 13 August 1814 – 21 June 1874) was a Swedish physicist and one of the founders of the science of spectroscopy.[1]

Ångström is also well known for his studies of astrophysics, heat transfer, terrestrial magnetism, and the aurora borealis. In 1852, Ångström formulated in Optiska undersökningar (Optical investigations),[2] a law of absorption, later modified somewhat and known as Kirchhoff's law of thermal radiation.[citation needed]

Biography[edit]

Anders Jonas Ångström was born in Medelpad to Johan Ångström, and schooled in Härnösand. He moved to Uppsala in 1833 and was educated at Uppsala University, where in 1839 he became docent in physics. In 1842 he went to the Stockholm Observatory to gain experience in practical astronomical work, and the following year he was appointed keeper of the Uppsala Astronomical Observatory.[3]

Intrigued by terrestrial magnetism he recorded observations of fluctuations in magnetic intensity in various parts of Sweden, and was charged by the Stockholm Academy of Sciences with the task, not completed until shortly before his death, of working out the magnetic data obtained by HSwMS Eugenie on her voyage around the world in 1851 to 1853.[4]

In 1858, he succeeded Adolph Ferdinand Svanberg in the chair of physics at Uppsala. His most important work was concerned with heat conduction and spectroscopy. In his optical researches, Optiska Undersökningar, presented to the Royal Swedish Academy of Sciences in 1853, he not only pointed out that the electric spark yields two superposed spectra, one from the metal of the electrode and the other from the gas in which it passes, but deduced from Leonhard Euler's theory of resonance that an incandescent gas emits luminous rays of the same refrangibility as those it can absorb.[2] This statement, as Sir Edward Sabine remarked when awarding him the Rumford medal of the Royal Society in 1872, contains a fundamental principle of spectrum analysis, and though overlooked for a number of years it entitles him to rank as one of the founders of spectroscopy.[4]

From 1861 onward, he paid special attention to the solar spectrum. His combination of the spectroscope with photography for the study of the Solar System resulted in proving that the Sun's atmosphere contains hydrogen, among other elements (1862), and in 1868 he published his great map of the normal solar spectrum in Recherches sur le spectre solaire, including detailed measurements of more than 1000 spectral lines, which long remained authoritative in questions of wavelength, although his measurements were inexact by one part in 7000 or 8000, owing to the metre he used as a standard being slightly too short.[4]

Two front pages laid out of the 1868 copy of "Recherches sur le spectre solaire" in black and white text
Front pages of the 1868 copy of "Recherches sur le spectre solaire"

He was the first, in 1867, to examine the spectrum of the aurora borealis, and detected and measured the characteristic bright line in its yellow-green region; but he was mistaken in supposing that this same line, which is often called by his name, is also to be seen in the zodiacal light.[4]

He was elected a member of a number of learned societies, including the Royal Swedish Academy of Sciences in 1850, the Royal Society in 1870 and the Institut de France in 1873.[citation needed] He died in Uppsala on 21 June 1874.

His son, Knut (1857–1910), was also a physicist.

Honours[edit]

The Ångström unit (1 Å = 10−10 m) in which the wavelengths of light and interatomic spacings in condensed matter are sometimes measured is named after him.[5] The unit is also used in crystallography as well as spectroscopy.

The crater Ångström on the Moon is named in his honour.

One of the main building complexes of Uppsala University, the Ångström Laboratory, is named in his honour. This building houses various departments including the Department of Physics and Astronomy, Department of Mathematics, Department of Engineering Sciences, Institute of Space Physics, and the Department of Chemistry.

Death[edit]

Anders Ångström died in June 1874 from meningitis, shortly before his sixtieth birthday.[6]

See also[edit]

References[edit]

  1. ^ P.Murdin (2000): "Angstrom" chapter in Encyclopedia of Astronomy and Astrophysics. doi:10.1888/0333750888/4594 ISBN 0333750888 Bibcode:2000eaa..bookE4594.
  2. ^ a b Ångström, A.J. (1852). "Optiska undersökningar" [Optical investigations]. Kongliga Vetenskaps-Akademiens Handlingar [Proceedings of the Royal Academy of Science] (in Swedish). 40: 333–360. Note: Although Ångström submitted his paper to the Swedish Royal Academy of Science on 16 February 1853, it was published in the volume for Academy's proceedings of 1852. German translation: Ångström, A.J. (1855). "Optische Untersuchungen" [Optical investigations]. Annalen der Physik und Chemie (in German). 94: 141–165.. English translation: Ångström, A.J. (1855). "Optical researches". Philosophical Magazine. 4th series. 9: 327–342.
  3. ^ "The Ångström family, Uppsala University". Archived from the original on 2016-03-05. Retrieved 2014-08-24.
  4. ^ a b c d  One or more of the preceding sentences incorporates text from a publication now in the public domainChisholm, Hugh, ed. (1911). "Angström, Anders Jonas". Encyclopædia Britannica. Vol. 2 (11th ed.). Cambridge University Press. p. 42.
  5. ^ Murdin, P. (November 2000). "Ångström, Anders Jonas (1814-74)". Encyclopedia of Astronomy and Astrophysics. Bibcode:2000eaa..bookE3428.. doi:10.1888/0333750888/3428. ISBN 0333750888.
  6. ^ "Anders Jonas Ångström". 24 June 2022.

Further reading[edit]

External links[edit]