From Surf Wiki (app.surf) — the open knowledge base
Femtometre
Unit of length
Unit of length
| Field | Value | ||
|---|---|---|---|
| name | femtometre | ||
| image | Helium atom QM.svg | ||
| caption | The helium atom and perspective magnitudes | ||
| symbol | fm | ||
| standard | SI | ||
| quantity | length | ||
| units1 | SI base units | ||
| inunits1 | |||
| units2 | Natural units | ||
| inunits2 | |||
| -->{{val | 1.8897 | e | -5}} *a*0 |
| units3 | imperial/US units | ||
| inunits3 | 1 fm |
-- a0 The femtometre (American spelling femtometer), symbol fm, (derived from the Danish and Norwegian word femten 'fifteen', ) is a unit of length in the International System of Units (SI) equal to 10−15 metres, which means a quadrillionth of one metre. This distance is sometimes called a fermi and was so named in honour of Italian naturalized to American physicist Enrico Fermi, as it is a typical length-scale of nuclear physics.
Definition and equivalents
zeptometres = 1 femtometre = 1 fermi = 0.000001 nanometre =
femtometres = 1 millimetre.
For example, the charge radius of a proton is approximately 0.841 femtometres while the radius of a gold nucleus is approximately 8.45 femtometres.
1 barn = 100 fm2
History
The femtometre was adopted by the 11th Conférence Générale des Poids et Mesures, and added to the SI in 1964, using the Danish word for "15" and the similarity in spelling with fermi.
The fermi is named after the Italian physicist Enrico Fermi (1901–1954), one of the founders of nuclear physics. The term was coined by Robert Hofstadter in a 1956 paper published in Reviews of Modern Physics entitled "Electron Scattering and Nuclear Structure". The term is widely used by nuclear and particle physicists. When Hofstadter was awarded the 1961 Nobel Prize in Physics, it subsequently appeared in the text of his 1961 Nobel Lecture, "The electron-scattering method and its application to the structure of nuclei and nucleons" (December 11, 1961).
References
de:Meter#Dezimale Vielfache ru:Фемтометр
References
- "Units: F". Unc.edu.
- "Nuclear Size and Shape".
- (2013-08-23). "The Case of the Shrinking Proton {{pipe}} Perimeter Institute". Perimeterinstitute.ca.
- Blatt, John M.; Weisskopf, Victor F. (1952), Theoretical Nuclear Physics, New York: Wiley, pp. 14–16.
- [http://rmp.aps.org/abstract/RMP/v28/i3/p214_1 Hofstadter, Robert, Department of Physics, Stanford University, Stanford, California, "Electron Scattering and Nuclear Structure," Rev. Mod. Phys. 28, 214–254 (1956) The American Physical Society]
- [https://www.nobelprize.org/uploads/2018/06/hofstadter-lecture.pdf Hofstadter, Robert, "The electron-scattering method and its application to the structure of nuclei and nucleons," Nobel Lecture (December 11, 1961)]
This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.
Ask Mako anything about Femtometre — get instant answers, deeper analysis, and related topics.
Research with MakoFree with your Surf account
Create a free account to save articles, ask Mako questions, and organize your research.
Sign up freeThis content may have been generated or modified by AI. CloudSurf Software LLC is not responsible for the accuracy, completeness, or reliability of AI-generated content. Always verify important information from primary sources.
Report