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Constans Coulombiana

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Constans Coulombiana
DimensionesL3MT−2Q−2
Magnitudo8.9875517923(14)×109 kgm3s−4A−2

Constans Coulombiana,[1] vel constans roboris electricae,[2] vel constans electrostatica[3] (ke vel k vel K notata) est constans proportionalitatis in aequationibus electrostaticae(en)(d) adhibita.[4] Ei sunt dimensiones L3MT−2Q−2. Nomen in honorem Caroli de Coulomb (17361806), physici Francogallici, electum est, qui legem Coulombianam(d)(en) anno 1785 invenit.[5]

Secundum unitates primarias Systematis internationalis unitatum, constanti Coulombianae congruunt 8.9875517923(14)×109 kgm3s−4A−2.[6]

Secundum nonnulla systemata unitatum naturalium(en)(d) (e.g. secundum unitates Stoneyanas, secundum unitates Planckianas), constans Coulombiana partem numeralem habet unius – i.e.: ke = 1 lS3mStS−2qS−2 = 1 lP3mPtP−2qP−2 = …

Aequationes quae constante Coulombiana utuntur

[recensere | fontem recensere]
Lex Coulombiana(d)(en)
Energia electrica potentialis(en)(d)
Campus electricus
  1. Cleri, Fabrizio (2016). The Physics of Living Systems. Springer International Publishing. p. 611. ISBN 9783319306476 
  2. Oxford, Cambridge and RSA Examinations (2010). Data, Formulae and Relationships Booklet (Revised Version 2.2) – GCE Advanced Level and Advanced Subsidiary – Physics B (Advancing Physics). p. 2 
  3. Milne, Edward Arthur (6 Martii 1937). "Letters to Editor: The Constant of Gravitation". Nature 139 (3514): 409 
  4. Coulomb force. . Encyclopedia Britannica 
  5. Charles-Augustin de Coulomb. . Encyclopedia Britannica 
  6. Pars numeralis e ke = 14πε0 ducitur – "2018 CODATA Value: vacuum electric permittivity". The NIST Reference on Constants, Units, and Uncertainty. NIST. 20 Maii 2019 

Nexus interni