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What Could It Be? Empirical Formulas The empirical formula is the simplest whole number ratio of the atoms of each element in a compound. Note: it is.

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Presentation on theme: "What Could It Be? Empirical Formulas The empirical formula is the simplest whole number ratio of the atoms of each element in a compound. Note: it is."— Presentation transcript:

1

2 What Could It Be?

3 Empirical Formulas The empirical formula is the simplest whole number ratio of the atoms of each element in a compound. Note: it is not necessarily the true formula of the compound. Example: The molecular formula for glucose is C 6 H 12 O 6, but its empirical formula is CH 2 O It’s kind of like a fraction reduced to its lowest terms.

4 Molecular Formulas The molecular formula gives the actual numbers of each element, and thereby represents the true formula of the compound.

5 Calculating the Empirical Formula Example 1: A compound is found to contain the following… 2.199 g Copper 0.277 g Oxygen Calculate it’s empirical formula.

6 Calculating the Empirical Formula Step 1: Convert the masses to moles. Copper: Oxygen:

7 Calculating the Empirical Formula Step 2: Divide all the moles by the smallest value. This gives the “mole ratio”

8 Calculating the Empirical Formula Step 3: Round off these numbers, they become the subscripts for the elements. Cu 2 O

9 Example 2: A material is found to be composed of 38.7% Carbon, 51.6% Oxygen, and 9.7% Hydrogen. By other means, it is known that the molecular weight is 62.0 g/mol Calculate the empirical and molecular formula for the compound. If you assume a sample weight of 100grams, then the percents are really grams.

10 Example 2: A material is found to be composed of 38.7% Carbon, 51.6% Oxygen, and 9.7% Hydrogen. By other means, it is known that the molecular weight is 62.0 Calculate the empirical and molecular formula for the compound. Carbon: Oxygen: Hydrogen:

11 Example 2: A material is found to be composed of 38.7% Carbon, 51.6% Oxygen, and 9.7% Hydrogen. By other means, it is known that the molecular weight is 62.0 Calculate the empirical and molecular formula for the compound. Carbon: Oxygen: Hydrogen: Now, divide all the moles by the smallest one, 3.23

12 Example 2: A material is found to be composed of 38.7% Carbon, 51.6% Oxygen, and 9.7% Hydrogen. By other means, it is known that the molecular weight is 62.0 Calculate the empirical and molecular formula for the compound. So, the empirical formula must be CH 3 O The molecular weight of the empirical formula is…. C 12 x 1 = 12 g/mol H 1 x 3 = 3 g/mol O 16 x 1 = 16 g/mol 31 g/mol

13 Remember, the empirical formula is not necessarily the molecular formula! MW of the empirical formula = 31 MW of the molecular formula = 62

14 CH 3 O 2 x ( ) = C 2 H 6 O 2 Empirical Formula Molecular Formula

15 Remember, the molecular formula represents the actual formula.

16 What if the mole ratios don’t come out even?

17 Example 3: A compound is analyzed and found to contain 2.42g aluminum and 2.15g oxygen. Calculate its empirical formula. Aluminum: Oxygen: X 2 = 2 X 2 = 3 Al 2 O 3

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