Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
1.2 Formulas 1.2.5 Define the terms empirical formula and molecular formula 1.2.6 Determine the empirical formula and/or the molecular formula of a given compound • empirical formula from the % composition or from experimental data • % composition from the formula of a compound • molecular formula when given both the empirical formula and the molar mass Terms: The law of definite proportions describes that elements in a given compound are always present in the same proportions by mass. The Percentage composition of a compound refers to the relative mass of each element in the compound. The term molecular mass describes the mass of a molecule. The term formula mass describes the mass of the smallest repeating unit of an ionic compound. Finding Percentage composition from a chemical formula: Find the mass of the compound, then find the mass of the individual parts (atoms). 2. Divide the atoms by the compound and multiply by 100% For example: H2O H2 = 2 x 1.01 = 2.02 +O = +16 Total molecular mass = 18.02 Percentage by mass of H in water = 2.02/18.02 =.11 x 100% = 11% Percentage by mass of O in water = 16/18.02 =.888 x 100% = 89% 1. Percent Composition mass Percentage Composition from by mass Take the mass of the atom and divide by the total mass of the compound, then multiply by 100% Example: Mass of compound is 48.72g, it contains 32.69g of zinc and 16.03g of sulfur %Zn = (32.69g/ 48.72g) x 100% = 67.10% %S = (16.03g/ 48.72g) x 100% = 32.90% Practice: Calculate the mass percentage of nitrogen in each compound: 1. a) b) c) d) e) f) N2O Sr(NO3)2 NH4NO3 HNO3 NH4 KNO3 Empirical Formulas The empirical formula is simply the simplest whole number ratio of the elements in a compound. The molecular formula is the actual number of atoms that makes up the molecule For example, the empirical formula of ethene (C2H4) is CH2 the empirical formula of butene (C4H8) is CH2 Comparing Name Molecular Empirica Low l ratio Hydrogen peroxide H2O2 HO 1:1 Glucose C6H12O6 CH2O 1:2:1 Benzene C6H6 CH 1:1 Ethene C2H4 CH2 1:2 Butene C4H8 CH2 1:2 Aniline C6H7N C6H7N 6:7:1 Water H2O H2O 2:1 Finding Empirical formula: Calculate empirical formula of a compound that is 85.6% carbon and 14.4% hydrogen. First, assume that you have 100g of the substance, so you really have 85.6g of C and 14.4g of H. Next, convert it to moles using molar mass. Finally, find the lowest whole ratio between the two. 85.6g C and 14.4g H 2. mol C = 85.6g x mol = 7.13mol C 12.01g mol H = 14.4g x mol = 14.3 mol H 1.01g 3. Lowest mole ratio: C = 7.13 /7.13 = 1 H = 14.3/ 7.13 = 2.01 , so 2 ANSWER: CH2 1. Practice: Find the empirical formula for the following: 17.5% hydrogen and 82.5% nitrogen 2. 46.3% lithium and 53.7% oxygen 3. 15.9% boron and 84.1% fluorine 4. 52.52% chlorine and 47.48% sulfur 1. Finding Molecular Formula The empirical formula is CH2O, and its molar mass is 150g/mol. What is molecular formula? Find empirical molar mass of CH2O: 12.01 + 2.02 + 15.99 g/mol =30.02 g/mol Divide real molar mass by empirical molar mass: 150/30.02 = 5 Multiply subscripts of empirical formula through by ratio (5): C5H10O5