How to calculate empirical formula
The empirical formula of a compound represents the simplest whole-number ratio of elements present in that compound. It serves as a basic building block in understanding chemical compositions and reactions. In this article, we will walk through the process of determining the empirical formula from a given set of experimental data or elemental composition.
Step 1: Obtain Elemental Masses
Obtain the mass or percentage composition for each element in the compound. If given percentages, assume that they represent masses out of 100 grams total. For example, if a compound contains 40% Carbon (C) and 60% Oxygen (O), assume it contains 40g Carbon and 60g Oxygen.
Step 2: Convert Masses to Moles
Convert the given masses or percentages for each element into moles using their atomic masses from the periodic table. To do this, divide each mass by its corresponding atomic mass.
For our example:
Moles of Carbon (C) = 40g / 12.01g/mol = 3.33 moles
Moles of Oxygen (O) = 60g / 16.00g/mol = 3.75 moles
Step 3: Find the Lowest Ratio of Moles
Divide each mole value by the smallest mole value obtained in step two to get a ratio between them. Round any decimal values to whole numbers if they are very close.
For our example:
Moles of Carbon (C): 3.33 / 3.33 = 1
Moles of Oxygen (O): 3.75 / 3.33 ≈ 1
Step 4: Determine Empirical Formula
Use these whole numbers found in step three as subscripts in the empirical formula.
For our example:
Empirical formula is CO
Conclusion:
Calculating the empirical formula is an essential skill in chemistry, as it provides fundamental information about the elemental composition of a compound. By following these four steps, you can determine the simplest whole-number ratio of elements in any chemical substance with ease.