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Angstrom

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Angstrom

Ångström
Unit of Length
Symbol Å 
Named after Anders Jonas Ångström
Unit conversions
1 Å in ... ... is equal to ...
   metres    10−10 m
   centimetres    10−8 cm
   nanometres    0.1 nm
   picometres    100 pm
Anders Jonas Ångström.

The angstrom or ångström (Swedish: ) is a unit of length equal to 10−10 m (one ten-billionth of a metre) or 0.1 nm. Its symbol is Å, a letter in the Scandinavian alphabets.

The natural sciences and technology often use ångström to express sizes of atoms, molecules, microscopic biological structures, and lengths of chemical bonds, arrangement of atoms in crystals, wavelengths of electromagnetic radiation, and dimensions of integrated circuit parts. Atoms of phosphorus, sulfur, and chlorine are 1 Å in covalent radius, while a hydrogen atom is 0.25 Å; see atomic radius.

The unit is named after the Swedish physicist Anders Jonas Ångström (1814–1874). The symbol is always written with a ring diacritic, as the letter in the Swedish alphabet. The unit's name is often written in English without the diacritics,[1] but the official definitions contain diacritics.[2][3]

History

Anders Jonas Ångström was a pioneer in the field of spectroscopy, and is also known for his studies of astrophysics, heat transfer, terrestrial magnetism, and the aurora borealis.

In 1852, Ångström formulated in Optiska undersökningar,[4] in English translation Optical researches,[5] a law of absorption, later modified somewhat and known as Kirchhoff's law of thermal radiation.

In 1868, Ångström created a chart of the spectrum of solar radiation that expressed the wavelengths of electromagnetic radiation in the electromagnetic spectrum in multiples of one ten-millionth of a millimetre (or 10−7 mm.)[6] Since the human eye is sensitive to wavelengths from about 4000 to 7000 Å, what we commonly call visible light, that unit supported sufficiently accurate measurements of visible wavelengths without resorting to fractional numbers. The unit then spread to other sciences that deal with atomic-scale structures.

Though intended to correspond to 10−10 metres, for precise spectral analysis, the ångström had to be defined more accurately than the metre, which until 1960 was still defined based on the length of a bar of metal held in Paris. The use of metal bars had been involved in an early error in the value of the ångström of about one part in 6000. Ångström took the precaution of having the standard bar he used checked against a standard in Paris, but the metrologist Henri Tresca reported it to be so much shorter than it really was, that Ångström's corrected results were more in error than the uncorrected ones.[7]

In 1907, the International Astronomical Union defined the international ångström by declaring the wavelength of the red line of cadmium in air equal to 6438.46963 international ångströms, and this definition was endorsed by the International Bureau of Weights and Measures in 1927.[8] From 1927 to 1960, the ångström remained a secondary unit of length for use in spectroscopy, defined separately from the metre. In 1960, the metre itself was redefined in spectroscopic terms, and then the ångström was redefined as being exactly 0.1 nanometres.

The ångström is internationally recognized, but is not a formal part of the International System of Units (SI). The closest SI unit is the nanometre (10−9 m). The International Committee for Weights and Measures officially discourages its use, and it is not included in the European Union's catalogue of units of measure that may be used within its Internal Market.[9]

Symbol

Example of the Unicode codification

Unicode includes the formal symbol at U+212B angstrom sign (HTML: ). However, the ångström sign is also normalized into U+00C5 Å latin capital letter a with ring above (HTML: Å Å)[10]

See also

References

  1. ^ Webster′s Encyclopedic Unabridged Dictionary of the English Language. Portland House, 1989.
  2. ^  
  3. ^ Thompson, A.; Taylor, B. N (5 October 2010). "B.8 Factors for Units Listed Alphabetically". NIST Guide to the SI.  
  4. ^ "Kungliga Vetenskapsakademiens handlingar", roughly translated as Transactions of the Royal Academy of Sciences, published between 1739 and 1974, see Vetenskapsakademiens Handlingar (in Swedish).
  5. ^ Angstrom A. J. (1855) "Optical Researches" Phil.Mag. 9. pp. 327-342.
  6. ^ "A Brief (Incomplete) History of Light and Spectra". ChemTeam. 
  7. ^ Brand, J.C.D. (1995). Lines of Light: Sources of Dispersive Spectroscopy, 1800-1930. CRC Press. p. 47.  
  8. ^ ]Proceedings of the 7th meeting of the General conference of weights and measures [Comptes rendus de la 7e réunion de la Conférence générale des poids et mesures (in Français), Paris, 1927, pp. 85–88 
  9. ^ The Council of the European Communities (27 May 2009). "Council Directive 80/181/EEC of 20 December 1979 on the approximation of the laws of the Member States relating to Unit of measurement and on the repeal of Directive 71/354/EEC". Retrieved 23 September 2011. 
  10. ^  
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