- Carbon-12
Infobox isotope
alternate_names =carbon 12 isotope
symbol =C
mass_number =12
mass =12
num_neutrons =6
num_protons =6
abundance =98.89%
halflife =
error_halflife =
background =#f99
text_color =
decay_product =
decay_symbol =
decay_mass =
decay_mode1 =
decay_energy1 =
decay_mode2 =
decay_energy2 =
decay_mode3 =
decay_energy3 =
decay_mode4 =
decay_energy4 =
parent = Nitrogen-12
parent_symbol = N
parent_mass =12
parent_decay =
parent2 =Boron-12
parent2_symbol =B
parent2_mass =12
parent2_decay =
spin =0
excess_energy = 0
error1 = 0
binding_energy =92,161.753
error2 =0.014Carbon-12 is the most abundant of the two stable
isotope s of the elementcarbon , accounting for 98.89% of carbon; it contains 6protons , 6neutrons and 6electrons .Carbon-12 is of particular importance as it is used as the standard from which
atomic mass es of allnuclides are measured: its mass number is by definition 12.History
Prior to
1959 both theIUPAP andIUPAC tended to useoxygen to define the mole, the chemists defining the mole as the number of atoms of oxygen which had mass 16 g, the physicists using a similar definition but with theoxygen-16 isotope only. The two organizations agreed in1959 /1960 to define the mole as:
"The mole is the amount of substance of a system which contains as many elementary"entities as there are atoms in 0.012
kilogram of carbon 12; its symbol is "mol.""This was adopted by the CIPM (International Committee for Weights and Measures) in
1967 , and in1971 it was adopted by the 14th CGPM (General Conference on Weights and Measures).In 1961 the isotope carbon-12 was selected to replace oxygen as the standard relative to which the atomic weights of all the other elements are measured
In
1980 the CIPM clarified the above definition, defining that the carbon-12 atoms are unbound and in theirground state .Hoyle State
The Hoyle State is an excited state of carbon-12 with precisely the properties necessary to allow just the right amount of carbon to be created in a stellar environment. The existence of the Hoyle state is essential for the nucleosynthesis of
carbon in helium-burning red giant stars. The resonant state was predicted by Fred Hoyle in the 1950s based on the observed abundances of heavy elements in the universe. The resonant state allows carbon to be produced via thetriple-alpha process . The existence of the Hoyle state has been confirmed but its precise properties are still being investigated.See also
*
Carbon
*Carbon-13
*Carbon-14
*Isotopes of carbon
*Mole (unit)
*Avogadro constant External links
* [http://www.iupac.org/publications/ci/2004/2601/1_holden.html Atomic Weights and the International Committee — A Historical Review]
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