Unit 7: Solution Chemistry

1. Unit 7: Solution Chemistry Section 1: Molarity and Molality

2. Solutions • Are a combination of at least two ingredients, such as water and salt • The substance in the larger quantity is the solvent • The substance in the smaller quantity is the solute • Are homogeneous mixtures • Don’t have to be liquids • Air is a solution composed of nitrogen (the solvent), oxygen, water vapor, carbon dioxide, and other gases • Brass is a solution composed of copper and zinc

3. Concentration • The higher the ratio of solute to solvent, the more concentrated the solution • Example: Kool-Aid can be as diluted or concentrated as you want it to be, just add more water to dilute the drink • The wrong concentration can cause an object to work improperly or be harmful to living things • Example: Eye drops for humans can be harmful for a canine because of the different concentration requirements

4. Saturation • When the solute and solvent are put together, there is a limit as to how much solute can be dissolved • Saturated solution: no more solute will dissolve at a specific temperature • Unsaturated solution: more of the solute can be dissolved at the same temperature • Supersaturated solution: an unstable and temporary situation where the solution contains more dissolved solute than it normally would • Occurs when there is a change in temperature, volume, or pressure

5. Molarity (M) • The number of moles of solute per liter of solution • M = moles liter • Deals with concentration

6. Molarity Example 1 • What is the molarity of a solution made by dissolving 0.3 mole of Ca(NO3)2 in enough water to make 500 mL of solution? M = moles liter = 0.3 mol 0.5 liter = 0.6 M Ca(NO3)2

7. Molarity Example 2 • How much 0.5 M NaCl can be made from 0.1 mole of NaCl? M = moles liter 0.5 M = 0.1 mole x liters 0.5x = 0.1 x = 0.2 L NaCl

8. Molarity Example 3 • What is the molarity of an Epsom salt (MgSO4) solution made by dissolving 6 grams of it in enough water to make 2 liters of solution? • Step 1: convert grams to moles 6 g MgSO4 x 1 mol MgSO4 = 0.05 mol MgSO4 120.366 g MgSO4 • Step 2: M = moles liter M = 0.05 mol = 0.03 M MgSO4 2 liters

9. Molarity Example 4 • How many grams of KOH are needed in order to prepare 2 liters of a 0.25 M solution? • Step 1: M = moles liter 0.25 M = x mol 2 L x = 0.5 mol KOH • Step 2: convert moles to grams 0.5 mol KOH x 56.1049 g KOH = 30 g KOH 1 mol KOH

10. Molality (m) • The number of moles of solute per kilogram of solvent • m = moles of solute kilogram of solvent • Also deals with concentration, but used less frequently

11. Molality Example 1 • Calculate the molality of an antifreeze solution made by dissolving 186 g of antifreeze (C2H6O2) in 2 kg of water. • Step 1: Convert grams to moles 186 g C2H6O2 x 1 mol C2H6O2= 3.00 mol C2H6O2 62.0674 g C2H6O2 • Step 2: m = moles of solute kilogram of solvent m = 3.00 mol = 2 m C2H6O2 2 kg

12. Molality Example 2 • How many grams of lye (NaOH) should be added to 800 g of water in order to make a 0.5 m solution? • Step 1: Convert g of solvent to kg of solvent 800 g x 1 kg = 0.8 kg 1000 g • Step 2: Solve for grams of solute m = moles of solute kilogram of solvent 0.5 m = x mol = 0.4 mol NaOH 0.8 kg • Step 3: Convert mol NaOH to g NaOH 0.4 mol NaOH x 39.9959 g NaOH = 20 g NaOH 1 mol NaOH