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Carbon-12 (12 C) is the most abundant of the two stable isotopes of carbon (carbon-13 being the other), amounting to 98.93% of element carbon on Earth; [1] its abundance is due to the triple-alpha process by which it is created in stars.
Carbon (6 C) has 14 known isotopes, from 8 C to 20 C as well as 22 C, of which 12 C and 13 C are stable.The longest-lived radioisotope is 14 C, with a half-life of 5.70(3) × 10 3 years. . This is also the only carbon radioisotope found in nature, as trace quantities are formed cosmogenically by the reactio
Isotopes with the atomic number of the fission products and an N/Z near that of uranium or other fissionable nuclei have too many neutrons to be stable; this neutron excess is why multiple free neutrons but no free protons are usually emitted in the fission process, and it is also why many fission product nuclei undergo a long chain of β − ...
The isotope carbon-12 (12 C) forms 98.93% of the carbon on Earth, while carbon-13 (13 C) forms the remaining 1.07%. [69] The concentration of 12 C is further increased in biological materials because biochemical reactions discriminate against 13 C. [ 70 ] In 1961, the International Union of Pure and Applied Chemistry (IUPAC) adopted the isotope ...
There are 15 known isotopes of carbon. Of these, three are naturally occurring. The most common is stable carbon-12, followed by stable carbon-13. [13] Carbon-14 is a natural radioactive isotope with a half-life of 5,730 years. [18] 23 isotopes of silicon have been discovered. Five of these are naturally occurring.
Of the 26 "monoisotopic" elements that have only a single stable isotope, all but one have an odd atomic number—the single exception being beryllium. In addition, no odd-numbered element has more than two stable isotopes, while every even-numbered element with stable isotopes, except for helium, beryllium, and carbon, has at least three.
The two main carbon isotopes are 12 C and 13 C. Plants absorb the lighter isotope, 12 C, more readily than 13 C. [25] Because fossil fuels originate mainly from plant matter, the 13 C/ 12 C ratio in the atmosphere falls when large amounts of fossil fuels are burned, releasing 12 C.
Carbon is a very likely constituent of the core. [12] Preferential partitioning of the carbon isotope 12 C into the metallic core, during its formation, may explain why there seems to be more 13 C on the surface and mantle of the Earth compared to other solar system bodies (−5‰ compared to -20‰). The difference can also help to predict ...