Nuclear isomer: Difference between revisions

Revision as of 23:13, 29 January 2020

Nuclear isomers are nuclear species with the same number of neutrons and the same number of protons, but different binding energy per nucleon are called isomers of that nuclide.^[1] Nuclear isomers shouldn't be confused with chemical isomers. These nuclei have organized the nucleons (protons and neutrons) into a slightly different energy configuration, one of which is almost always unstable. Usually, the protons or neutrons rearrange themselves and give off a gamma ray when giving off this excess energy. This is called gamma decay.

One well known and very useful nuclear isomer is technetium-99m. Tc-99m is the most used medical isotope for diagnostic procedures in the modern world. Tc-99m has a half life of 6 hours, while Tc-99 has a half life of 210,000 years. Both of these isomers have 43 protons and 56 neutrons, but Tc-99m doesn't last for nearly as long, and undergoes a [math]\betha^-[/math] decay.

For Further Reading

References

↑ McNaught, A.D. and A. Wilkinson (Eds.). (2014, Dec. 10). IUPAC. Compendium of Chemical Terminology (2nd ed., the "Gold Book"). Available: https://goldbook.iupac.org/terms/view/N04234 Accessed January 29th, 2020.

[1] McNaught, A.D. and A. Wilkinson (Eds.). (2014, Dec. 10). IUPAC. Compendium of Chemical Terminology (2nd ed., the "Gold Book"). Available: https://goldbook.iupac.org/terms/view/N04234 Accessed January 29th, 2020.

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-[[Category:Done 2015-08-21]]
+[[Category:Done 2020-01-31]]
 [[category:elements]]
-<onlyinclude>'''Nuclear isomers''' are [[nuclear species]] with the same number of [[neutron]]s and the same number of [[proton]]s, but different [[binding energy per nucleon]] are called isomers of that element.</onlyinclude><ref>McNaught, A.D. and A. Wilkinson (Eds.). (2014, Dec. 10). ''IUPAC. Compendium of Chemical Terminology'' (2nd ed., the "Gold Book"). Available: http://goldbook.iupac.org/N04234.html</ref> Nuclear isomers shouldn't be confused with [[chemical isomer|chemical isomers]]. These [[nucleus|nuclei]] have organized the [[nucleon]]s (protons and neutrons) into a slightly different energy configuration, one of which is almost always unstable. Usually, the protons or neutrons rearrange themselves and give off a gamma ray when giving off this excess energy. This is called [[gamma decay]].
+<onlyinclude>'''Nuclear isomers''' are [[nuclear species]] with the same number of [[neutron]]s and the same number of [[proton]]s, but different [[binding energy per nucleon]] are called isomers of that nuclide.</onlyinclude><ref>McNaught, A.D. and A. Wilkinson (Eds.). (2014, Dec. 10). ''IUPAC. Compendium of Chemical Terminology'' (2nd ed., the "Gold Book"). Available: https://goldbook.iupac.org/terms/view/N04234 Accessed January 29th, 2020.</ref> Nuclear isomers shouldn't be confused with [[chemical isomer|chemical isomers]]. These [[nucleus|nuclei]] have organized the [[nucleon]]s (protons and neutrons) into a slightly different energy configuration, one of which is almost always unstable. Usually, the protons or neutrons rearrange themselves and give off a gamma ray when giving off this excess energy. This is called [[gamma decay]].
-For more information on nuclear isomers please see [http://www.nucleonica.net/wiki/index.php?title=Isomer nucleonica].
+One well known and very useful nuclear isomer is [[technetium]]-99m. Tc-99m is the most used [[medical isotope]] for diagnostic procedures in the modern world. Tc-99m has a [[half life]] of 6 hours, while Tc-99 has a half life of 210,000 years. Both of these isomers have 43 protons and 56 neutrons, but Tc-99m doesn't last for nearly as long, and undergoes a <math>\betha^-</math> decay.
+==For Further Reading==
+*[[Nuclide]]
+*[[Isobar]]
+*[[Isotope]]
+*[[Isotone]]
+*Or explore a [[Special:Random|random page]]
 ==References==
 {{reflist}}
 [[Category:Uploaded]]

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Nuclear isomer: Difference between revisions

Revision as of 23:13, 29 January 2020

For Further Reading

References