Nuclear density

Nuclear density is the density of the nucleus of an atom, averaging about 2.3×1017 kg/m3. The descriptive term nuclear density is also applied to situations where similarly high densities occur, such as within neutron stars.

The nuclear density of an typical nucleus can be approximately calculated from the size of the nucleus, which itself can be approximated based on the number of protons and neutrons in it. The radius of a typical nucleus, in terms of number of nucleons, is where is the mass number and is 1.25 fm, with typical deviations of up to 0.2 fm from this value. The density of the nucleus is thus:

The density for any typical nucleus, in terms of mass number, is thus constant, not dependent on A or r, theoretically:

The experimentally determined value for n is 0.16 fm−3, that is 1.6·1044 m−3.

The mass density is the product of n by the nuclear mass. The calculated mass density, using a nucleon mass of 1.67×10−27 kg, is thus:

(For nucleon density . Where and .So )

Applications and extensions

The components of an atom and of a nucleus have varying densities. The proton is not a fundamental particle, being composed of quark-gluon matter. Its size is approximately 10−15 meters and its density 1018 kg/m3. The descriptive term nuclear density is also applied to situations where similarly high densities occur, such as within neutron stars.

Using deep inelastic scattering, it has been estimated that the "size" of an electron, if it is not a point particle, must be less than 10−17 meters. This would correspond to a density of roughly 1021 kg/m3.

Probing deeper within particles, one finds quarks which appear to be very dense and very hard. There are possibilities for still higher densities when it comes to quark matter, gluon matter, or neutrino matter. In the immediate future, the highest experimentally measurable densities will likely be limited to leptons and quarks.

gollark: I mean, sanctions have slightly imploded the currency, and stopped many banks being able to transact (presumably).
gollark: They aren't that selective, though.
gollark: I guess sanctions have an air of vagueness while this doesn't.
gollark: Huh. Weirdly, I intuitively find that bad and sanctions good?
gollark: I finally managed to fix the automatic routing algorithm, yay.

References

  • "The Atomic Nucleus". Retrieved 2014-11-18. (derivation of equations and other mathematical descriptions)

See also

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.