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2.7: The Mole

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    49389
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    Because atoms and molecules are extremely small, there are a great many of them in any macroscopic sample. The 1 cm3 of mercury referred to in the introduction to moles would contain 4.080 x 1022 mercury atoms, for example, and the 3.47 cm3 of bromine would contain twice as many (8.160 x 1022) bromine atoms. The very large numbers involved in counting microscopic particles are inconvenient to think about or to write down. Therefore chemists have chosen to count atoms and molecules using a unit called the mole. One mole (abbreviated mol) is 6.022 x 1023 of the microscopic particles which make up the substance in question. Thus 6.022 x 1023 Br atoms is referred to as 1 mol Br. The 8.160 x 1022 atoms in the sample we have been discussing would be

    \[\dfrac {8.160\cdot10^{22}} {6.022\cdot10^{23}\text{ mol Br}} = \text {0.1355 mol Br}\]

    The idea of using a large number as a unit with which to measure how many objects we have is not unique to chemists. Eggs, doughnuts, and many other things are sold by the dozen—a unit of twelve items. Smaller objects, such as pencils, may be ordered in units of 144, that is, by the gross, and paper is packaged in reams, each of which contains 500 sheets. A chemist who refers to 0.1355 mol Br is very much like a bookstore manager who orders 2½ dozen sweat shirts, 20 gross of pencils, or 62 reams of paper.

    There is a difference in degree, however, because the chemist’s unit, 6.022 x 1023, is so large. A stack of paper containing a mole of sheets would extend more than a million times the distance from the earth to the sun, and 6.022 x 1023 grains of sand would cover all the land in the world to a depth of nearly 2 ft. Obviously there are a great many particles in a mole of anything.

    Why have chemists chosen such an unusual number as 6.022 x 1023 as the unit with which to count the number of atoms or molecules? Surely some nice round number would be easier to remember. The answer is that the number of grams in the mass of 1 mol of atoms of any element is the atomic weight of that element. For example, 1 mol of mercury atoms not only contains 6.022 x 1023 atoms, but its mass of 200.59 g is conveniently obtained by adding the unit gram to the Table of Atomic Weights. Some other examples are

    $$\begin{align} &\text{1 mol H contains 6.022} \times 10^{23} \text{H atoms;} & \text{its mass is 1.008 g.} \\&\text{1 mol C contains 6.022} \times 10^{23} \text{C atoms;} &\text{its mass is 12.01 g.} \\&\text{1 mol O contains 6.022} \times 10^{23} \text{O atoms;} &\text{its mass is 16.00 g.} \\&\text{1 mol Br contains 6.022} \times 10^{23} \text{Br atoms;} &\text{its mass is 79.90 g.} \end{align} $$

    Here and in subsequent calculations atomic weights are rounded to two decimal places, unless, as in the case of H, fewer than four significant figures would remain.

    The mass of a mole of molecules can also be obtained from atomic weights. Just as a dozen eggs will have a dozen whites and a dozen yolks, a mole of CO molecules will contain a mole of C atoms and a mole of O atoms.

    The mass of a mole of CO is thus

    \[ \text{Mass of 1 mol C + mass of 1 mol O = mass of 1 mol CO}\]

    \[ \text{12.01 g + 16.00 g = 28.01 g}\]

    The molecular weight of CO (28.01) expressed in grams is the mass of a mole of CO. Some other examples are in Table \(\PageIndex{1}\).

    Table \(\PageIndex{1}\): Molecular Weight 
    Molecule Molecular Weight Mass of 1 Mol of Molecules
    Br2 2(79.90) = 159.80 159.80 g
    O2 2(16.00) = 32.00 32.00 g
    H2O 2(1.008) + 16 = 18.02 18.02 g
    HgBr2 200.59 + 2(79.90) = 360.39 360.39 g
    Hg2Br2 2(200.59) + 2(79.90) = 560.98 560.98 g

    It is important to specify to what kind of particle a mole refers. A mole of Br atoms, for example, has only half as many atoms (and half as great a mass) as a mole of Br2 molecules. It is best not to talk about a mole of bromine without specifying whether you mean 1 mol Br or 1 mol Br2.

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