(In contrast, the ground state nuclide tantalum-180 does not occur primordially, since it decays with a half life of only 8 hours to 180Hf (86%) or 180W (14%).) This nuclide occurs primordially, and has never been observed to decay to the ground state. ), which has a half-life in excess of 1,000 trillion years. The longest-lived non- ground state nuclear isomer is the nuclide tantalum-180m ( 180m Each of these two states (technetium-99m and technetium-99) qualifies as a different nuclide, illustrating one way that nuclides may differ from isotopes (an isotope may consist of several different nuclides of different excitation states).
An example is the two states of the single isotope 99 Nuclear isomers are members of a set of nuclides with equal proton number and equal mass number (thus making them by definition the same isotope), but different states of excitation. See Isotope#Notation for an explanation of the notation used for different nuclide or isotope types. The name isoto ne was derived from the name isoto pe to emphasize that in the first group of nuclides it is the number of neutrons (n) that is constant, whereas in the second the number of protons (p). Likewise, nuclides with the same neutron excess ( N − Z) are called isodiaphers. In similar manner, a set of nuclides with equal mass number A, but different atomic number, are called isobars (isobar = equal in weight), and isotones are nuclides of equal neutron number but different proton numbers. Particular nuclides are still often loosely called "isotopes", but the term "nuclide" is the correct one in general (i.e., when Z is not fixed). Ī set of nuclides with equal proton number ( atomic number), i.e., of the same chemical element but different neutron numbers, are called isotopes of the element. The following table names some other relations.Įqual mass number (Z 1 + N 1 = Z 2 + N 2)Įqual neutron excess (N 1 − Z 1 = N 2 − Z 2)Įxamples are isodiaphers with neutron excess 1.Ī nuclide and its alpha decay product are isodiaphers. Since isotope is the older term, it is better known than nuclide, and is still occasionally used in contexts in which nuclide might be more appropriate, such as nuclear technology and nuclear medicine.Īlthough the words nuclide and isotope are often used interchangeably, being isotopes is actually only one relation between nuclides. For helium, He4 obeys Bose–Einstein statistics, while He3 obeys Fermi-Dirac statistics. For hydrogen, the lightest element, the isotope effect is large enough to affect biological systems strongly. Even in the case of the very lightest elements, where the ratio of neutron number to atomic number varies the most between isotopes, it usually has only a small effect, but it matters in some circumstances. The neutron number has large effects on nuclear properties, but its effect on chemical reactions is negligible for most elements. The nuclide concept (referring to individual nuclear species) emphasizes nuclear properties over chemical properties, while the isotope concept (grouping all atoms of each element) emphasizes chemical over nuclear.
5 Summary table for numbers of each class of nuclidesĪ nuclide is a species of an atom with a specific number of protons and neutrons in the nucleus, for example carbon-13 with 6 protons and 7 neutrons.3 Origins of naturally occurring radionuclides.
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