Percent Composition

1. Percent Composition Empirical and Molecular Formulas &

2. Percent Composition Indicates relative % of each element in a compound Total % of the components ~ 100%

3. Examples • Determine the % of children in a group consisting of 10 men, 8 women, and 9 children. 10 + 8 + 9 = 27 total people 9 children x 100 = 33.3% 27 people

4. Examples • Find the % of aluminum in aluminum oxide. • Find the % of nitrogen in ammonium nitrate, a compound used in fertilizers. • Copper(II) sulfate pentahydrate is a blue compound used to make colored pigments, insecticides, and electric batteries. Determine the % water.

5. Empirical Formulas Empirical formulas are the lowest possible ratio of components in the compound. Ionic formulas are almost always empirical in nature. Covalent compounds require more information …..is the EF= MF?

6. Steps to determining the EF • Find the percent composition of the substance. • Assume you have a 100 gram sample assuming 100g, you can remove the % sign and replace it with grams 3. Convert the grams found in step 2 into moles.

7. Steps to Determine the EF 4. Ratio the moles you found in step 3 5. Divide all moles by the smallest value this determines the relative molar amount of each of the atoms— ~ whole number 6. If the numbers are not whole numbers multiply by a factor that will yield a whole number Example: 1: 1.3 --- x 3 = 3:4

8. Steps to Determine the EF Use molar ratios obtained as subscripts in the formula. Example 1 What is the EF of a compound that contains 53.73% Fe and 46.27% S? ( Fe2S3) Example 2 What is the EF of a compound that contains 90.7% Pb and 9.33% O? ( Pb3O4)

9. Molecular Formulas Molecular formulas can be found from the EF • Find the empirical formula and mass • Find the relationship between the EF mass and the molecular mass n = molecular formula mass empirical formula mass 3. (Empirical formula)n = Molecular formula EF = CH4 n = 2 C2H8

10. Example: • A compound composed of hydrogen and oxygen is analyzed and a sample of the compound yields 0.59 g of hydrogen and 9.40 g of oxygen. The molecular mass of the compound is 34 g/mol. Find the empirical formula and molecular formula for this compound.

11. Step 1: Find the percent composition H = 0.59 g O = 9.40 g 9.99 g Total Sample 100% - 5.9% = 94.1% oxygen

12. Step 2: Assume a 100 g Sample • Drop the percent sign and replace it with a “g” for grams.

13. Step 3: Convert grams to moles 5.9 g H 1 mole = 5.9 moles H 1.0 g 94.1 g 1 mole = 5.9 moles O 16 g

14. Step 4: Ratio the moles and reduce Moles of H:Moles of O 5.9 moles : 5.9 moles 5.9 moles 5.9 moles 1:1

15. Step 5: Use mole ratio for empirical formula subscripts • 1 hydrogen : 1 oxygen Empirical Formula: HO

16. Step 6: Find the empirical formula mass • Empirical Formula: HO 1 g + 16 g = 17 g/mol

17. Step 7: Divide Molecular Mass by the Empirical Formula Mass Molecular mass (sometimes called molar mass or mass of the molecule) = 34.0 g/mol Divide the molecular mass by the empirical formula mass to find “n”, a multiplier. n = (molecular mass ) = 34 g/mol (empirical formula mass) 17 g/mol n = 2

18. Step 8: Multiply the subscripts in the empirical formula by “n” Molecular Formula = (empirical formula)n Molecular Formula = (HO)2 *distribute the 2 through the parentheses Molecular Formula = H2O2