Mass Excess

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## Energy scale of nuclear reactions

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This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Mass Excess

The **mass excess** of a nuclide is the difference between its actual mass and its mass number in atomic mass units. It is one of the predominant methods for tabulating nuclear mass. The mass of an atomic nucleus is well approximated (less than 0.1% difference for most nuclides) by its mass number, which indicates that most of the mass of a nucleus arises from mass of its constituent protons and neutrons. Thus, the mass excess is an expression of the nuclear binding energy, relative to the binding energy per nucleon of carbon-12 (which defines the atomic mass unit). If the mass excess is negative, the nucleus has more binding energy than ^{12}C, and vice versa. If a nucleus has a large excess of mass compared to a nearby nuclear species, it can radioactively decay, releasing energy.

The ^{12}C standard makes it useful to think about nuclear mass in atomic mass units for the definition of the mass excess. However, its usefulness arises in the calculation of nuclear reaction kinematics or decay. Only a small fraction of the total energy associated with atomic nuclei by mass-energy equivalence, on the order of 0.01% to 0.1% of the total mass, may be absorbed or liberated as radiation. Thus by working in terms of the mass excess, one has effectively removed much of the mass changes which arise from the mere transfer or release of nucleons, making more obvious the scale of the net energy difference.

Nuclear reaction kinematics are customarily performed in units involving the electron volt, a consequence of accelerator technology. The combination of this practical point with the theoretical relation *E* = *mc*^{2} makes units of mega electron volts over the speed of light squared (MeV/*c*^{2}) a convenient form to express nuclear mass. However, the numerical values of nuclear masses in MeV/*c*^{2} are quite large (even the proton mass is ~938.27 MeV/c^{2}), while mass excesses range in the tens of MeV/*c*^{2}. This makes tabulated mass excess less cumbersome for use in calculations. One trivial point worth noting is that the 1/*c*^{2} term is typically omitted when quoting mass excess values in MeV, since the interest is more often energy and not mass; if one wanted units of mass, one would simply change the units from MeV to MeV/*c*^{2} without altering the numerical value.

Consider the nuclear fission of ^{236}U into ^{92}Kr, ^{141}Ba, and three neutrons.

^{236}U ->^{92}Kr +^{141}Ba + 3 n

The mass number of the reactant, ^{236}U, is 236. Because the actual mass is , its mass excess is +. Calculated in the same manner, the mass excess for the products, ^{92}Kr, ^{141}Ba, and three neutrons, are , and , respectively, for a total mass excess of . The difference between the mass excess of the reactants and that of the products is , which shows that the mass excess of the products is less than that of the reactants, and so the fission can occur - a calculation which could have also been done with only the masses of the reactants.

The mass excess can be converted into energy using = , and *E* = *mc*^{2}, yielding .

- Krane, K. S (1987).
*Introductory Nuclear Physics*. John Wiley & Sons. ISBN 0-471-80553-X. - Tipler, P. A; Llewellyn, R. A. (2004).
*Modern Physics*. W. H. Freeman and Company. ISBN 0-7167-4345-0.

- Audi, G.; Kondev, F. G.; Wang, M.; Huang, W. J.; Naimi, S. (2017). "The NUBASE2016 evaluation of nuclear properties" (PDF).
*Chinese Physics C*.**41**(3): 030001. Bibcode:2017ChPhC..41c0001A. doi:10.1088/1674-1137/41/3/030001.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

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