1. Empirical and Molecular Formulas

2. Empirical Formula What are we talking about???
Empirical Formula represents the smallest ratio of atoms in a formula.
In other words it represents the simplest chemical formula for a particular compound.

3. Steps to Solve!
You need to follow these basic steps to determine your answer.
1) Make sure you are starting in grams
2) Convert all grams to moles (Molar Mass)
3) Divide each by the smallest number of moles.
4) Create whole number ratio of subscripts
5) Multiply if necessary

4. Example 1
In an unknown molecule, there are 4.15 grams of Carbon and 1.38 grams of Hydrogen. Determine the empirical formula for the substance!
Step 1) Make sure you are starting in grams
Step 2) Convert each mass in grams to moles.

6. Now What?
Step 3) Divide each by the smallest number of moles. Set up the Ratio of elements

7. Solution!
The 1 and the 4 represent the whole number ratio of the elements in the chemical formula.
The 1 represents that there is only one Carbon atom
The 4 represents that there are four Hydrogen atoms
The Solution: The empirical formula is CH4

8. Phenol, a general disinfectant, is 76. 57 % Carbon, 6
Phenol, a general disinfectant, is % Carbon, 6.43 % Hydrogen, and % Oxygen. Determine it’s empirical formula.
Step 1) Make sure you are starting in grams…….
How can we go from percent to grams?
Easy! Assume we have a 100 gram sample so there would be how much of each element?

9. Step 2) Convert each mass in grams to moles.

11. Try this!
Element “A” is 78.1% abundant and has a molar mass of g/mol. Element “B” is 21.9% abundant and has a molar mass of 1.01 g/mol. Determine the empirical formula.
78.1g A X 1mol/10.81g = 7.22 mol B
21.9g B X 1mol/1.01g = mol H
7.22 mol ÷ 7.22mol =1
21.7 mol ÷ 7.22mol = 3.01
Ratio of 1:3
AB3

12. Molecular Formula
The molecular formula is related, but different to the empirical formula.
Remember that Empirical Formula represents the lowest ratio of the atoms in a compound.
The Molecular Formula is the actual, or true ratio of the elements in the compound.

13. Needs and Steps!
1. In order to solve you need the molar mass of the molecular formula for a compound in g/mol.
2. Determine the empirical formula.
3. Calculate the molar mass of the empirical formula
4. Divide the molar mass of the molecular formula by the molar mass of the empirical formula. Apply ratio to all subscripts.

14. Example
The empirical formula for hydroquinone, a chemical used in photography, is C3H3O. The molecular weight of the compound Is 110 g/mol. Determine the molecular formula.
Step 1) Determine the molecular weight of the compound: Given at 110 g/mol.

15. Step 3) Determine the molar mass of the empirical formula.
Step 2) Determine the empirical formula: Given C3H3O.
Step 3) Determine the molar mass of the empirical formula.

16. Think…I Know it’s hard…
Step 4) Think about the molar mass of the molecular formula compared to the molar mass of the empirical formula.
Mol. Formula Emp. Formula
110 g/mol g/mol
Divide and get the ratio
110 g/mol / g/mol = 2

17. So….
That 2 represents what you will multiply all the subscripts by to determine the correct molecular formula.
C3H3O x 2 = C6H6O2
Molecular Formula

18. Try this
The empirical formula for a compound is C3H7. If the molecular weight is 86 g/mol, then what is the molecular formula?
1. The molecular weight is given:
86 g/mol
2. The empirical formula is given:
- C3H7

19. 3. Calculate the molar mass for the empirical formula.

20. Compare the two…. The Molecular weight was 86 g/mol
The Empirical weight was 43.1 g/mol
Divide Molecular by Empirical to determine the ratio!
86 g/mol / 43.1 g/mol = 2

21. So 2 is the ratio, multiply all the subscripts by 2
C3H7 x 2 = C6H14 is the Mol. Formula

22. Practice!
A) Empirical Formula is S
Molecular weight is 256 grams per mol
B) Empirical Formula is NO2
Molecular Weight is 46 g/mol