Atomic mass

In reference to a certain isotope of a chemical element, atomic mass (though also called relative atomic mass and atomic weight) is the mass of one atom of the isotope expressed in units (atomic mass unit, amu) such that the carbon-12 isotope has an atomic mass of exactly 12. No other isotope mass works out to a whole number due to the effects of nuclear binding energy.

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The atomic mass of an isotope is approximately an integer: in most cases the first digit after the decimal point is 0 or 9. This integer is called the mass number, and is the sum of the number of protons and the number of neutrons in the nucleus of the atom.

The pattern in the amounts the atomic masses deviate from their mass numbers is as follows: the deviation starts positive at hydrogen-1, becomes negative until a minimum is reached at iron-56, then increases to positive values in the heavy isotopes, with increasing atomic number. This corresponds to the following: nuclear fission in an element heavier than iron produces energy, and fission in any element lighter than iron requires energy; the opposite is true of nuclear fusion reactions - fusion in elements lighter than iron produces energy, and fusion in elements heavier than iron requires energy.

In reference to a certain chemical element, atomic mass (also called relative atomic mass, average atomic mass or atomic weight) as shown in the periodic table is the average atomic mass of all the chemical element's stable isotopes. The average is weighted by the relative natural abundances of the element's isotopes. This is the atomic mass used in stoichiometric calculations. This is usually used as the mass in grams of one mole of the element's atoms, often referred to as the gram atomic mass or molar mass.

The term atomic weight is being phased out slowly and being replaced by relative atomic mass, in most current usage. The term standard atomic weight (as used by IUPAC at this time) refers to the mean relative atomic mass of an element.

A similar definition applies to molecules; it is then called molecular mass. One can compute the molecular mass of a compound by adding the atomic masses of its constituent atoms multiplied by the ratios of elements given in the chemical formula. A similar formula mass can be calculated for those compounds which do not form molecules.

Direct comparison and measurement of the masses of atoms and molecules is achieved with mass spectrometry.

One mole of a substance always contains exactly the atomic or molecular mass of that substance, expressed in grams. For example, the atomic mass of iron is 55.847, and therefore one mole of iron atoms has a mass of 55.847 grams.

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