The average atomic mass of carbon will be as Īverage atomic mass = Σ (mass of individual isotope) (Its percentage abundance) Carbon atoms contain a mixture of 98.89% of 12C isotope with a mass of 12.00000 a.m.u, and 1.11% 13C isotope with a mass of 13.00335 a.m.u. The atomic mass of a given element can be determined by obtaining the sum of the product of the masses of isotopes and their percentage abundances. Such information is obtained by spectrometric techniques (mass spectrometer).įor example, Hydrogen has three isotopes ( 1H 1 ≈ 99.972%, 1H 2 ≈ 0.0156%, 1H 3 ≈ 10 -18%), Chlorine has two isotopes (Cl 35= 75%, Cl 37= 25%), etc. The first step in average atomic mass determination is the correct determination of the number of isotopes and their relative abundances of these isotopes. It can be calculated, as explained below. For example, the atomic mass of C is 12.011. This is why atomic masses usually appear in decimals. Therefore, the average atomic masses of atoms are is taken as the average of the masses of radioactive isotopes. This is because most elements occur in nature as a mixture of isotopes. The atomic masses are not the same as the atomic numbers in the periodic table. One atomic mass unit is equal to 1/12 of the mass of the carbon-12 atom. The relative mass of an atom is called atomic mass or atomic weight. For this reason, chemists use the relative atomic mass scale instead of atomic masses. The mass of individual atoms is very small and cannot be expressed in terms of grams or kilograms. The mass number (number of protons and neutrons) of a sample atom when related to the standard 12C, (1/12 th of the mass) gives the mass of an atom, which we call atomic mass or weight. This is accomplished via spectrometric techniques. The mass of an atom can be found no matter how small it is unless the number of protons and neutrons in its nucleus is known. This standard is met by element carbon, which has an isotopic abundance of almost 98.89% for carbon-12 ( 12C). Now, as there are isotopes in compounds as well, the standard has to be the one with the highest relative isotopic abundance, otherwise, the answers will not be as certain. It has to be related to some known mass which can be kept as a standard. Its mass cannot be measured directly by any known technique. An atom is very small, in the order of picometers.
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