Empirical and Molecular Formulas
We can determine its percent composition If we are given an unknown substance how could we determine its chemical formula? We can determine its percent composition Then you can determine its chemical formula There are two types of chemical formula: Empirical Formula Molecular Formula
Empirical Formula Empirical formula: the simplest whole-number ratio of atoms in a compound This is the true formula for ionic compounds, but not for necessarily for molecular
Molecular Formula Empirical Formula C2H2 CH C4H4 C6H6 The empirical formula gives the combining ratio in its simplest form The molecular formula gives the same ratio but with the actual number of atoms Note: The empirical formula and the molecular formula can be the same in some cases. E.g. H2O, CH3, CO2
How to determine the Empirical Formula You are given the % composition of a compound Ex: 92.3 % Carbon 7.7% Hydrogen Assume that you have a 100.0 g sample of the compound: Ex: 92.3 g Carbon 7.7 g Hydrogen
3. Use the atomic mass of each element to determine the number of moles of each element Covert mass to moles nC = 92.3 g 12.0 g/mol nC = 7.69 mol C Covert mass to moles nH = 7.7 g 1.01 g/mol nH = 7.70 mol H 4. To obtain the simplest molar ratio (empirical formula), divide both by the smaller number of moles present C:H 7.69 mol C : 7.70 mol H 7.69 1 mol C : 1 mol H, therefore C1H1 or CH is the empirical formula
Calculating Empirical Formula E.g. What is the empirical formula of a substance that is 40.0% carbon, 6.70% hydrogen, and 53.3% oxygen by mass? Given: Assume 100 g mC = 40.0 g mH = 6.70 g mO = 53.3 g Divide each element by the lowest quantity 3.33 mol C = 1 6.63 mol H = 1.99 3.33 mol O = 1 3.33 3.33 3.33 Mole ratio of C:H:O = 1:2:1 Covert mass to moles nC = 40.0 g 12.0 g/mol nC = 3.33 mol nO = 53.3 g 16.0 g/mol nO = 3.33 mol The empirical formula of the substance is CH2O nH = 6.70 g 1.01 g/mol nH = 6.63 mol
Calculating Molecular Formula Molecular formula: shows the actual number of atoms of each element in a molecule A true chemical formula for molecular compounds There are two different ways to find a molecular formula, depending on what type of information you are given…
Type 1: Given empirical formula and molar mass Given: Empirical formula: CH2O molar mass: 180 g/mol Calculate the empirical formula molar mass M of CH2O = 12.01 g/mol + 2(1.01 g/mol) + 16.00 g/mol M of CH2O = 30.03 g/mol 2. Calculate the number of formula units # of formula units = molar mass (given) empirical molar mass (step 1) # of formula units = 180 g/mol = 6 formula units 30.03 g/mol
Molecular formula = # of formula units x empirical formula 6 x (CH2O) = C6H12O6 Therefore the molecular formula is C6H12O6 (glucose)
The molecular formula of the compound is H2O2 E.g. What is the molecular formula of a compound that has a molar mass of 34 g/mol and the empirical formula HO? Given: Empirical Formula: HO MMcmpd = 34 g/mol MMHO = 1.01 + 16.00 = 17.01 g/mol Molecular Formula = MMcmpd MMHO = 34 g/mol 17.01 g/mol = 2 The molecular formula of the compound is H2O2
The molecular formula of the compound is C3H9 E.g. What is the molecular formula of a compound that has a molar mass of 45.00 g/mol and the empirical formula CH3? Given: Empirical Formula: CH3 MMcmpd = 45.00 g/mol MMCH3 = 12.01 + 3(1.01) = 15.04 g/mol Molecular Formula = MMcmpd MMCH3 = 45.00 g/mol 15.04 g/mol = 3 The molecular formula of the compound is C3H9
Type 2: Given the % Composition and the Molar Mass Step 1: Using the % composition, find the empirical formula 21.9 g Na 45.7 g C 1.9 g H 30.5 g O 22.99g/mol 12.01 g/mol 1.01 g/mol 16.00 g/mol = 0.95 mol Na = 3.81 mol C =1.88 mol H =1.91 mol O 0.95 mol Na 3.81 mol C 1.88 mol H 1.91 mol O 0.95 0.95 0.95 0.95 = 1 mol Na = 4 mol C = 2 mol H = 2 mol O Given: % Na = 21.9 % % C = 45.7% % H = 1.9% % O = 30.5 % MM = 210.00 g/mol
Empirical formula: NaC4H2O2 Step 2: Continue to solve for the molecular formula as for Type 1 M of NaC4H2O2 = 22.99 g/mol + 4(12.01g/mol) + 2(1.01 g/mol) + 2(16.00g/mol) M of NaC4H2O2 = 105.05 g/mol # of formula units = 210 g/mol 105. 05 g/mol # of formula units = 2 formula units Molecular Formula = 2 x (NaC4H2O2) Molecular Formula = Na2C8H4O4
The molecular formula is C4H10 E.g. What is the molecular formula of a compound with a molar mass of 58.0 g/mol and a percent composition of 82.5% C and 17.5% H? Given: % C = 82.5% % H = 17.5% MM = 58.0 g/mol m = assume 100 g 6.87 mol C 17.3 mol H 6.87 mol 6.87 mol = 1 mol C = 2.5 *** multiply both by 2 to get full numbers Empirical formula = C2H5 M of C2H5 = 2(12.01g/mol) + 5(1.01) M of C2H5 =29.07g/mol mc = 82.5 g nc = 82.5 g 12.01 g = 6.87 mol mH = 17.5 g nH = 17.5 g 1.01 g = 17.3 mol # of formula units = 58.0 g/mol 29. 07 g/mol # of formula units = 2 formula units Molecular formula = 2 x (C2H5) The molecular formula is C4H10
Homework P. 211 # 13- 16 P. 214 # 1-3 P. 218 # 17-20