1. Solutions, Electrolytes, and Conductivity Lab 8

2.  Purpose  Solutions  Solution Preparation from Solids  Solution Preparation from Liquids (dilution)  Electrolytes  Conductivity  Procedure  Safety Concerns  Waste  Next Assignment Outline

3.  The goal of this experiment is to illustrate the behavior of strong, weak, and non-electrolytes in aqueous solution.  This will be achieved through the use of electrical conductivity measurements.  You will be afforded more experience in solution preparation. Purpose

4. Dissolution vs. Dissociation

5.  Types of solutions we are dealing with today:  solid to liquid  liquid to liquid Solutions

6.  When you are required to make a solution of accurate concentration, a volumetric flask is used.  We never make solutions of accurate concentration in:  Beakers  Graduated cylinders  Erlenmeyer flasks Solution Preparation

7.  Determine the mass of the solid needed. You will need the following values first:  Molar mass of the solid  Total volume desired  Final concentration desired Calculation:  Mass, g = [ ], mol/L x MM, g/mol x Vol, L  Remember the precision of your glassware! Solution Preparation from Solids

8.  Make the solution:  Weigh out the appropriate mass of solid.  Place a small volume of distilled water in the volumetric flask.  Add the solid to the volumetric flask.  Add some more distilled water to the flask, stopper, and invert several times.  Add distilled water to the calibration line (fill to volume) using a medicine dropper, stopper, and invert several times. Solution Preparation from Solids

9.  Determine the volume of stock solution needed. You will need the following values first:  Concentration of stock solution (M 1 )  Desired concentration of diluted solution (M 2 )  Desired volume of diluted solution (V 2 )  Calculation:  M 1 V 1 = M 2 V 2  Remember the precision of your glassware! Solution Preparation from Liquids

10.  Make the solution:  Obtain the appropriate volume of stock solution using a graduated cylinder. (Always add a few mL extra.)  Place a small volume of distilled water in a volumetric flask.  Use the appropriate pipet to transfer the correct volume of stock solution from the graduated cylinder to the volumetric flask.  Add some more distilled water to the flask, stopper, and invert several times.  Add distilled water to the calibration line (fill to volume) using a medicine dropper, stopper, and invert several times. Solution Preparation from Liquids

11.  Strong Electrolytes 100% dissociation and high conductivity NaCl (s)  Na + (aq) + Cl - (aq)  Weak Electrolytes partial dissociation and partial conductivity CH 3 COOH (aq) CH 3 COO - (aq) + H + (aq)  Non Electrolytes no dissociation and no conductivity C 12 H 22 O 11(s)  C 12 H 22 O 11(aq) Electrolytes

12.  The ability of an aqueous solution to conduct electricity is dependent on the presence of ions in solution.  Conductivity or K has units of S/cm, mS/cm, or  S/cm.  We measure conductivity so we can make a comparison regarding relative numbers of ions present in solution. Conductivity

13.  The extent to which a solution conducts electricity is dependent on the proportional amount of ions present in solution.  Which of the following will have a higher conductivity?  NaCl vs. CaCl 2 Why?  NaCl vs. C 6 H 5 COOH Why? Conductivity

14. Procedure  Soak your conductivity probe in distilled water for 30 minutes before starting your experiment. Why? Conductivity Standard Conductivity,  S/cm Distilled Water0.0 0.004000 M KCl578.0 0.008000 M KCl1202.6 0.02000 M KCl2949.6 0.04000 M KCl5560.0 0.06000 M KCl8426.9

15.  Any glassware that will be containing non-electrolytes or weak electrolytes need to be rinsed thoroughly with distilled water prior to use.  Make up your three known solutions.  Calibrate your conductivity probe.  Measure the conductivities of your known solutions, distilled water, tap water, and three unknowns. Procedure

16.  Reagents:  Acetic Acid (3%)  KCl  NaCl  Sucrose  Eye Contact:  Irritation, redness, pain, and possible damage  Skin Contact:  Irritation. May cause sensitization and / or allergic reaction. Absorption may cause symptoms similar to ingestion  Inhalation:  Irritation and coughing  Ingestion:  Gastrointestinal irritation, nausea, vomiting, diarrhea, prostration, dehydration and congestion of internal organs, and violent inflammatory reactions in the gastrointestinal tract Safety Concerns

17. All neutral solutions can go down the drain with plenty of water when you are finished. Acidic solutions need to be disposed in the acid waste container in the fume hood. Remember to clean up the balances and counters if / when you spill anything. Waste

18.  Lab 9 is next. Lab 9 Reminder