Chapter 3

1. Chapter 3 Mass Relationships in Chemistry; Stoichiometry

2. Mass Atomic masses are relative, representing the mass of an atom of one element compared to the mass of another. Carbon-12 is the standard and its mass is assigned a value of 12 amu.

3. Atomic Mass and Isotopic Abundance Silicon consists of three stable isotopes whose atomic masses and abundances are as follows: Si-28 27.98 amu 92.2% Si-29 28.98 amu 4.7% Si-30 29.97 amu 3.1% Answer: 28.1 amu

4. % Composition Percent composition = total mass of element/total mass of compound X 100

5. Empirical Formula • Determine the mass of each element. • Determine the number of moles of each element by dividing by the atomic mass of that element • Find smallest number of moles. • Divide the number of moles of each element by the smallest number of moles • Number of moles are subscripts.

6. Examples A sample of compound is made up of 78.20 g of potassium and 32.06 g sulfur. What is the empirical formula? 78.20 g K x 1 mol K/39.10 g K = 2.000 mol K 32.06 g S x 1 mol S/32.06 g S = 1.000 mol S Divide each by 1.000 K2 S1 Formula: K2S

7. A compound has the following percent composition. 31.9 % K 29.0 % Cl 39.1% O To find the mass of each element, assume 100.0 g of compound. 31.9 g K 29.0 gCl 39.1 g O 31.9 g K x 1 mol K/39.10 g K = 0.816 mol K 29.0 gClx 1 mol Cl/35.35 gCl = 0.818 mol Cl 39.1 g O x 1 mol O/16.00 g O = 2.44 mol O Ratios: K 0.816/0.816 = 1 Cl 0.818/0.816 = 1 O 2.44/0.816 = 2.99 Simplest formula: KClO3

8. Rounding to determine integer ratios • To get an integer, it is ok to round down by at most 0.1. • 2.09 can be rounded down to 2 • To get an integer, it is ok to round up by at most 0.1. • 2.93 can be rounded up to 3 • If that is not possible, multiply each ratio by small whole numbers until multiplication by one small number yields ratios that are all integers. • 1.50 x 2 = 3 1.33 x 3 = 4

9. Molecular Formulas Multiple: molar mass/simplest formula mass