Nuclear species: Difference between revisions

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<onlyinclude>A '''nuclide''', which is also called a '''nuclear species''', is a unique configuration of [[nucleon]]s (which is the collective term for [[proton]]s and [[neutron]]s) inside of a [[nucleus]].This term allows nuclear scientists to distinguish between nuclei that differ in any way; number of protons, neutrons, or [[energy]] configuration of either.</onlyinclude><ref>A.D. McNaught and A. Wilkinson (Eds.). (2014, Dec. 10). ''IUPAC. Compendium of Chemical Terminology'' (2nd ed., the "Gold Book"). Available: http://goldbook.iupac.org/N04257.html</ref>
<onlyinclude>A '''nuclide''', which is also called a '''nuclear species''', is a unique configuration of [[nucleon]]s (which is the collective term for [[proton]]s and [[neutron]]s) inside of a [[nucleus]].This term allows nuclear scientists to distinguish between nuclei that differ in any way; number of protons, neutrons, or [[energy]] configuration of either.</onlyinclude><ref>A.D. McNaught and A. Wilkinson (Eds.). (2014, Dec. 10). ''IUPAC. Compendium of Chemical Terminology'' (2nd ed., the "Gold Book"). Available: http://goldbook.iupac.org/N04257.html</ref>


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Changing the number of protons (the [[atomic number]]) creates a different nuclear species:
Changing the number of protons (the [[atomic number]]) creates a different nuclear species:


:<m>^{36}_{16}S</m> is a different species than <m> ^{37}_{17}Cl</m>.  
:<chem>^{36}_{16}S</chem> is a different species than <chem> ^{37}_{17}Cl</chem>.  


Likewise, changing the number of neutrons (the [[neutron number]]) changes the nuclear species:  
Likewise, changing the number of neutrons (the [[neutron number]]) changes the nuclear species:  


:<m>^{39}_{19}K</m>, and <m> ^{40}_{19}K</m> are two different nuclear species.  
:<chem>^{39}_{19}K</chem>, and <chem> ^{40}_{19}K</chem> are two different nuclear species.  


Both of the previous examples changed the [[mass number]], but different [[isobar]]s (same mass number, different number of protons and neutrons individually) would also be different nuclear species:
Both of the previous examples changed the [[mass number]], but different [[isobar]]s (same mass number, different number of protons and neutrons individually) would also be different nuclear species:


:<m>^{40}_{20}Ca</m>, and <m> ^{40}_{19}K</m> are different nuclear species.
:<chem>^{40}_{20}Ca</chem>, and <chem> ^{40}_{19}K</chem> are different nuclear species.


Slightly abstractly, putting the [[nucleon]]s into a different configuration (same number of protons, same number of neutrons, but in different energy levels (this is an example of two different [[nuclear isomer]]s)):  
Slightly abstractly, putting the [[nucleon]]s into a different configuration (same number of protons, same number of neutrons, but in different energy levels (this is an example of two different [[nuclear isomer]]s)):  


:<m>^{234m}_{91}Pa</m>, and <m> ^{234}_{91}Pa</m> are different nuclear species.  
:<chem>^{234m}_{91}Pa</chem>, and <chem> ^{234}_{91}Pa</chem> are different nuclear species.  
==References==
==References==
{{reflist}}
{{reflist}}
[[Category:Uploaded]]
[[Category:Uploaded]]

Revision as of 22:22, 11 May 2018

A nuclide, which is also called a nuclear species, is a unique configuration of nucleons (which is the collective term for protons and neutrons) inside of a nucleus.This term allows nuclear scientists to distinguish between nuclei that differ in any way; number of protons, neutrons, or energy configuration of either.[1]

Examples

Changing the number of protons (the atomic number) creates a different nuclear species:

[math]\ce{^{36}_{16}S}[/math] is a different species than [math]\ce{ ^{37}_{17}Cl}[/math].

Likewise, changing the number of neutrons (the neutron number) changes the nuclear species:

[math]\ce{^{39}_{19}K}[/math], and [math]\ce{ ^{40}_{19}K}[/math] are two different nuclear species.

Both of the previous examples changed the mass number, but different isobars (same mass number, different number of protons and neutrons individually) would also be different nuclear species:

[math]\ce{^{40}_{20}Ca}[/math], and [math]\ce{ ^{40}_{19}K}[/math] are different nuclear species.

Slightly abstractly, putting the nucleons into a different configuration (same number of protons, same number of neutrons, but in different energy levels (this is an example of two different nuclear isomers)):

[math]\ce{^{234m}_{91}Pa}[/math], and [math]\ce{ ^{234}_{91}Pa}[/math] are different nuclear species.

References

  1. A.D. McNaught and A. Wilkinson (Eds.). (2014, Dec. 10). IUPAC. Compendium of Chemical Terminology (2nd ed., the "Gold Book"). Available: http://goldbook.iupac.org/N04257.html