Then, calculate the molar mass of each element in the compound. For example, if you’re calculating the molar mass of water, you’d start with the formula H2O. First, you’ll need to find the chemical formula for the compound. Finding the molar mass of a compound is a little more complicated. For example, the molar mass of H2 is 1.007 x 2 x 1 g/mol, or 2.014 g/mol. In these cases, you’ll need to multiply the relative atomic mass of the element by the number of atoms in the molecule, then multiply the result by the molar mass constant. However, some elements, such as hydrogen, nitrogen, and oxygen, only occur naturally in molecules of 2 or more atoms. For instance, zirconium has a molar mass of 91.22 x 1 g/mol, or 91.22 g/mol. For most elements, this means that the relative atomic mass is equal to the molar mass. Next, multiply the atomic mass by the molar mass constant, which is equal to 1 gram per mole. For instance, the relative atomic mass of zirconium (Zr) is 91.22. This is usually located under the symbol and name of the element. To find an element’s molar mass, start by checking the periodic table for the relative atomic mass of the element. Molar mass is the mass in grams of 1 mole of any given substance. According to the International System of Units, a mole is the amount of any substance that contains the same number of elementary entities-typically atoms or molecules-as there are atoms in 12 grams of the isotope carbon-12. When you’re measuring extremely tiny amounts of a substance, it can be helpful to use molar mass.
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