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8 | 1 CHAPTER 8 CHEMICAL COMPOSITION. 8 | 2 Atomic Masses Balanced equations tell us the relative numbers of molecules of reactants and products. C +

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1 8 | 1 CHAPTER 8 CHEMICAL COMPOSITION

2 8 | 2 Atomic Masses Balanced equations tell us the relative numbers of molecules of reactants and products. C + O 2  CO 2 1 atom of C reacts with 1 molecule of O 2 to make 1 molecule of CO 2

3 8 | 3 Atomic Masses (cont.) If you want to know how many O 2 molecules you will need, or how many CO 2 molecules you can make, you will need to know how many C atoms are in the sample of carbon you are starting with. You can either count the atoms (!) or weigh the carbon and calculate the number of atoms – if you knew the mass of one atom of carbon.

4 8 | 4 Atomic Masses (cont.) Atomic masses allow us to convert weights into numbers of atoms. Unit is the amu (atomic mass unit) –1 amu = 1.66 x 10 -24 g

5 8 | 5 Atomic Masses (cont.)

6 8 | 6 Atomic Masses (cont.) If our sample of carbon weighs 3.00 x 10 20 amu, we will have 2.50 x 10 19 atoms of carbon. Since our equation tells us that 1 C atom reacts with 1 O 2 molecule, if we have 2.50 x 10 19 C atoms, we will need 2.50 x 10 19 molecules of O 2

7 8 | 7 Example #1 Determine the mass of 1 Al atom 1 atom of Al = 26.98 amu Use the relationship as a conversion factor Calculate the mass (in amu) of 75 atoms of Al.

8 8 | 8 Moles The mass of 1.0 mole of an element is equal to the atomic mass in grams. A mole is the number of particles equal to the number of carbon atoms in 12 g of C-12. One mole = 6.022 x 10 23 units. This number is called Avogadro’s number. 1 mole of C-12 atoms weighs 12.0 g and has 6.02 x 10 23 atoms. 1 atom of Carbon-12 weighs 12.0 amu.

9 8 | 9 Example #2 Compute the number of moles and the number of atoms in 10.0 g of Al.

10 8 | 10 Example #2 (cont.) Use the periodic table to determine the mass of 1 mole of Al. 1 mole Al = 26.98 g Use this as a conversion factor for grams-to-moles.

11 8 | 11 Example #2 (cont.) Use Avogadro’s Number to determine the number of atoms in 1 mole. 1 mole Al = 6.02 x 10 23 atoms Use this as a conversion factor for moles-to-atoms.

12 8 | 12 Compute the number of moles in and the mass of 2.23 x 10 23 atoms of Al. Example #3

13 8 | 13 Example #3 (cont.) Use Avogadro’s Number to determine the number of atoms in 1 mole. 1 mole Al = 6.02 x 10 23 atoms Use this as a conversion factor for atoms-to-moles.

14 8 | 14 Example #3 (cont.) Use the periodic table to determine the mass of 1 mole of Al. 1 mole Al = 26.98 g Use this as a conversion factor for moles-to-grams.

15 8 | 15 Molar Mass Molar mass: the mass in grams of one mole of a compound The relative weights of molecules can be calculated from atomic masses water = H 2 O = 2(1.008 amu) + 16.00 amu = 18.02 amu 1 mole of H 2 O will weigh 18.02 g, therefore the molar mass of H 2 O is 18.02 g 1 mole of H 2 O will contain 16.00 g of oxygen and 2.02 g of hydrogen

16 8 | 16 Percent Composition Percentage by mass of each element in a compound Can be determined from the formula of the compound or by experimental mass analysis of the compound The percentages may not always total to 100% due to rounding.

17 8 | 17 Determine the percent composition from the formula C 2 H 5 OH. Example #4

18 8 | 18 Example #4 (cont.) Determine the mass of each element in 1 mole of the compound. 2 moles C = 2(12.01 g) = 24.02 g 6 moles H = 6(1.008 g) = 6.048 g 1 mol O = 1(16.00 g) = 16.00 g Determine the molar mass of the compound by adding the masses of the elements. 1 mole C 2 H 5 OH = 46.07 g

19 8 | 19 Divide the mass of each element by the molar mass of the compound and multiply by 100% Example #4 (cont.)

20 8 | 20 Empirical Formulas Empirical formula: the simplest, whole-number ratio of atoms in a molecule –Can be determined from percent composition or by combining masses Molecular formula: a multiple of the empirical formula % A mass A (g) moles A 100g MM A % B mass B (g) moles B 100g MM B moles A moles B

21 8 | 21 Determine the empirical formula of benzopyrene, C 20 H 12 Example #5

22 8 | 22 Example #5 (cont.) Find the greatest common factor (GCF) of the subscripts. factors of 20 = (10 x 2), (5 x 4) factors of 12 = (6 x 2), (4 x 3) GCF = 4 Divide each subscript by the GCF to get the empirical formula. C 20 H 12 = (C 5 H 3 ) 4 Empirical Formula = C 5 H 3

23 8 | 23 Determine the empirical formula of acetic anhydride if its percent composition is 47% carbon, 47% oxygen, and 6.0% hydrogen. Example #6

24 8 | 24 Example #6 (cont.) Convert the percentages to grams by assuming you have 100 g of the compound. –Step can be skipped if given masses

25 8 | 25 Convert the grams to moles Example #6 (cont.)

26 8 | 26 Divide each by the smallest number of moles. For this example, 2.9 is the smallest. Example #6 (cont.)

27 8 | 27 If any of the ratios is not a whole number, multiply all the ratios by a factor to make it a whole number. –If ratio is ?.5, then multiply by 2; if ?.33 or ?.67 then multiply by 3; if ?.25 or ?.75, then multiply by 4 Multiply all the Ratios by 3 Because C is 1.3 Example #6 (cont.)

28 8 | 28 Use the ratios as the subscripts in the empirical formula. C4H6O3C4H6O3 Example #6 (cont.)

29 8 | 29 Molecular Formulas The molecular formula is a multiple of the empirical formula. To determine the molecular formula you need to know the empirical formula and the molar mass of the compound.

30 8 | 30 Determine the molecular formula of benzopyrene if it has a molar mass of 252 g and an empirical formula of C 5 H 3 Example #7

31 8 | 31 Example #7 (cont.) Determine the empirical formula -May need to calculate it as previous C 5 H 3 Determine the molar mass of the empirical formula 5 C = 60.05 g, 3 H = 3.024 g C 5 H 3 = 63.07 g

32 8 | 32 Divide the given molar mass of the compound by the molar mass of the empirical formula Round to the nearest whole number Example #7 (cont.)

33 8 | 33 Multiply the empirical formula by the calculated factor to give the molecular formula (C 5 H 3 ) 4 = C 20 H 12 Example #7 (cont.)

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