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Chapter 7 “ Chemical Formulas and Chemical Compounds ”

Chapter 7 “ Chemical Formulas and Chemical Compounds ”. Yes , you will need a calculator for this chapter!. Using Formulas. How many oxygen atoms in the following? CaCO 3 Al 2 (SO 4 ) 3 How many ions in the following? CaCl 2 NaOH Al 2 (SO 4 ) 3. 3 atoms of oxygen.

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Chapter 7 “ Chemical Formulas and Chemical Compounds ”

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  1. Chapter 7“Chemical Formulas and Chemical Compounds” Yes, you will need a calculator for this chapter!

  2. Using Formulas • How many oxygen atoms in the following? CaCO3 Al2(SO4)3 • How many ions in the following? CaCl2 NaOH Al2(SO4)3 3 atoms of oxygen 12 (3 x 4) atoms of oxygen 3 total ions (1 Ca2+ ion and 2 Cl1- ions) 2 total ions (1 Na1+ ion and 1 OH1- ion) 5 total ions (2 Al3+ + 3 SO42- ions)

  3. Review Problems 2.75 x 1024 molecules • How many molecules of CO2 are in 4.56 moles of CO2? • How many moles of water is 5.87 x 1022 molecules? • How many atoms of carbon are in 1.23 moles of C6H12O6? • How many moles is 7.78 x 1024 formula units of MgCl2? 0.0975 mol (or 9.75 x 10-2) 4.44 x 1024 atoms C 12.9 moles

  4. More Practice 28.1 grams C • How many grams is 2.34 moles of carbon? • How many moles of magnesium is 24.31 g of Mg? • How many atoms of lithium is 1.00 g of Li? • How many grams is 3.45 x 1022 atoms of U? 1.000 mol Mg 8.68 x 1022 atoms Li 13.6 grams U

  5. What about compounds? • In 1 mole of H2O molecules there are two moles of H atoms and 1 mole of O atoms (think of a compound as a molar ratio) • To find the mass of one mole of a compound • determine the number of moles of the elements present • Multiply the number times their mass (from the periodic table) • add them up for the total mass

  6. Calculating Formula Mass Calculate the formula mass of magnesium carbonate, MgCO3. 16.00 g 24.31 g 12.01 g 84.32 g/mol 24.31 g/mol + 12.01 g/mol + 3 x (16.00 g/mol) = Thus, 84.32 grams/mol is the formula mass for MgCO3.

  7. Molar Mass • Molar mass is the generic term for the mass of one mole of any substance (expressed in grams/mol) • The same as: 1) Gram Molecular Mass (for molecules) 2) Gram Formula Mass (ionic compounds) 3) Gram Atomic Mass (for elements) • molar mass is just a much broader term than these other specific masses

  8. Examples • Calculate the molar mass of the following: Na2S N2O4 C Ca(NO3)2 C6H12O6 (NH4)3PO4 = 78.05 g/mol = 92.02 g/mol = 12.01 g/mol = 164.1 g/mol = 180.156 g/mol = 149.096 g/mol

  9. Since Molar Mass is… • The number of grams in 1 mole of atoms, ions, or molecules, • We can make conversion factors from these. - To change between grams of a compound and moles of a compound.

  10. For example • How many moles are in 5.69 g of NaOH?

  11. For example • How many moles are in 5.69 g of NaOH?

  12. For example • How many moles are in 5.69 g of NaOH? • We need to change 5.69 grams NaOH to moles

  13. For example • How many moles are in 5.69 g of NaOH? • We need to change 5.69 grams NaOH to moles • 1mole Na = 22.99 g 1 mol O = 16.00 g 1 mole of H = 1.008 g

  14. For example • How many moles are in 5.69 g of NaOH? • We need to change 5.69 grams NaOH to moles • 1mole Na = 22.99 g 1 mol O = 16.00 g 1 mole of H = 1.008 g • 1 mole NaOH = 39.998 g

  15. For example • How many moles are in 5.69 g of NaOH? • We need to change 5.69 grams NaOH to moles • 1mole Na = 22.99 g 1 mol O = 16.00 g 1 mole of H = 1.008 g • 1 mole NaOH = 39.998 g

  16. For example • How many moles are in 5.69 g of NaOH? • We need to change 5.69 grams NaOH to moles • 1mole Na = 22.99g 1 mol O = 16.00 g 1 mole of H = 1.008 g • 1 mole NaOH = 39.998 g

  17. Calculating Percent Composition of a Compound • Like all percent problems: part whole • Next, divide by the total mass of the compound; then x 100 • Find the mass of each of the components (the elements), x 100 % = percent

  18. Example • Calculate the percent composition of a compound that is made of 29.0 grams of Ag with 4.30 grams of S. 29.0 g Ag X 100 = 87.09 % Ag 33.3 g total Total = 100 % 4.30 g S X 100 = 12.91 % S 33.3 g total

  19. Getting it from the formula • If we know the formula, assume you have 1 mole, • then you know the mass of the elements and the whole compound (these values come from the periodic table!).

  20. Examples • Calculate the percent composition of C2H4. • How about aluminum carbonate? 85.63% C, 14.37 % H 23.06%Al, 15.40% C, and 61.54 % O

  21. Formulas Empirical formula: the lowest whole number ratio of atoms in a compound. Molecular formula: the true number of atoms of each element in the formula of a compound. • Example: molecular formula for benzene is C6H6 (note that everything is divisible by 6) • Therefore, the empirical formula = CH (the lowest whole number ratio)

  22. Formulas(continued) Formulas for ionic compounds are ALWAYS empirical (the lowest whole number ratio = cannot be reduced). Examples: NaCl MgCl2 Al2(SO4)3 K2CO3

  23. Formulas(continued) Formulas for molecular compounds might be empirical (lowest whole number ratio). Molecular: H2O C6H12O6 C12H22O11 (Correct formula) Empirical: H2O CH2O C12H22O11 (Lowest whole number ratio)

  24. Calculating Empirical = CH2O • Just find the lowest whole number ratio C6H12O6 CH4N • A formula is not just the ratio of atoms, it is also the ratio of moles. • In 1 mole of CO2 there is 1 mole of carbon and 2 moles of oxygen. • In one molecule of CO2 there is 1 atom of C and 2 atoms of O. = this is already the lowest ratio.

  25. Calculating Empirical • We can get a ratio from the percent composition. • Assume you have a 100 g sample - the percentage becomes grams (75.10% = 75.10 grams) • Convert grams to moles. • Find lowest whole number ratio by dividing each number of moles by the smallest value.

  26. Example • Calculate the empirical formula of a compound composed of 38.67 % C, 16.22 % H, and 45.11 %N. • Assume 100 g sample, so • 38.67 g C x 1mol C = 3.2198 mol C 12.01 g C • 16.22 g H x 1mol H = 16.0913 mol H 1.008 g H • 45.11 g N x 1mol N = 3.2198 mol N 14.01 g N Now divide each value by the smallest value

  27. Example • The ratio is 3.2198 mol N = 1 mol N 3.2198 mol N • The ratio is 3.2198 mol C = 1 mol C 3.2198 mol N • The ratio is 16.0913 mol H = 5 mol H 3.2198 mol N = C1H5N1 which is = CH5N

  28. Practice • A compound is 43.64 % P and 56.36 % O. What is the empirical formula? • P2O5 • Caffeine is 49.48% C, 5.15% H, 28.87% N and 16.49% O. What is its empirical formula? • C4H5N2O

  29. Empirical to Molecular • Since the empirical formula is the lowest ratio, the actual molecule would weigh more. • By a whole number multiple. • Divide the actual molar mass by the empirical formula mass – you get a whole number to increase each subscript in the empirical formula • Caffeine has a molar mass of 194 g. what is its molecular formula? = C8H10N4O2

  30. Hydrates • Hydrate: a compound that has a specific number of water molecules bound to its atoms • You can determine the formula of a hydrate by heating it until the water is gone, and analyzing the data

  31. BaCl2?H2O • Mass of the compound before heating (hydrate): 5.00 g • Mass after heating (anhydrous): 4.26 g • Find the mass of the water lost by subtracting 5.00g – 4.26 g = 0.74 g H2O • The mass of just the BaCl2 is 4.26 g

  32. Continued • Convert the mass of BaCl2 and the mass of H2O to mol • 4.26 g BaCl21 mol BaCl2 = 0.02046 mol 208.2 g BaCl2 • 0.74 g H2O 1 mol H2O = 0.04107 mol 18.016 g H2O • Divide by the smallest molar value

  33. Continued • 0.02046 molBaCl2 = 1 0.02046 molBaCl2 • 0.04107 mol H2O = 2 0.02046 molBaCl2 • Formula of the hydrate: BaCl22H2O

  34. Another Practice • FePO4? H2O • Mass before heating: 7.61 g • Mass after heating: 5.15 g • Mass of water: 2.46 g • Formula of the hydrate: FePO4 4H2O

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