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Create Index Cards On-Line:Create an account on quizlet.com Create a study set.Give the study set the name: Chapter 18 SolutionsCreate the study set with the following vocab
terms: saturated solution, solubility, unsaturated solution, miscible, immiscible, concentration, dilute solution, concentrated solution, molarity, colligative properties, boiling point elevation, freezing-point depression, molality, mole fraction
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Chapter 18 - Solutions
18.1 Properties of Solutions
Solution Formation Solvent
This is the liquid that is doing the dissolving Solute
This is what is being dissolvedForm a homogenous mixture
Solubility
When a solute is dissolved, an equilibrium is established: Equilibrium is a condition in which both
reactants and products are present in concentrations which have no further tendency to change with time
EXAMPLE:HC2H2O3 ↔ C2H3O2
- + H+
Solubility
When an equilibrium is established, the solution is said to be saturated
If a solution is not at equilibrium, then it is said to be unsaturated (solution has the ability to hold more)
Saturated vs. Unsaturated Solutions
Solubility
Two liquids that dissolve in each other are said to be miscible
Immiscible liquids are insoluble in each other
Immiscible vs. Miscible Solutions
Factors Affecting Solubility
Solubility increases with the increase in temperature (Easier to dissolve something when the temperature is increased)
Solubility increases with an increase in surface area (ex. CRUSHING) Few exceptions that occur in the reverse
Thursday, April 10th, 2014
PDN: What is the differences between miscible and immiscible? Saturated and unsaturated?
Daily Log: Molarity Notes Molarity Calculations
18.2 Concentrations of Solutions
Molarity is the concentration of moles per liters Molarity (M) = moles of solute / liters of
solution Dilute solution contains a low concentration
of solute Concentrated solution contains a high
concentration of solute
Practice Problems:
Calculate the molarity of a solution which contains 0.40 mol of C6H12O6 dissolved in 1.6 L of a solution.
What is the molarity of a solution containing 325 g of NaCl dissolved in 750. mL of solution?(1000 ml = 1L)
Monday, April 14th, 2014
PDN: Determine the volume of a 1.7M solution containing 3.3 grams of NaCl.
Daily Log: Science Scheduling Dilution Notes/Practice Problems
Making Dilutions
Formula for making a dilution C1 X V1 = C2 X V2
“Stock solution” is the same as the original solution.
Example
A stock solution of HCl has a concentration of 12M. How much of the stock solution would be required to make 325 mL of a 6M solution?
Monday, April 21st, 2014
Daily Log: Molality Notes Practice Problems Chapter 18 Test on
Friday
Molality
Molality is another way to represent the concentration of a solution.
It is represented by a lower case m. Molality = moles of solute/kg of solvent
Example: A 4.9m solution of NaCl is dissolved in 1000 grams of water. How many grams of NaCl is this?
Tuesday, April 22nd, 2014
PDN: Determine the molality of a NaCl solution in which 17.3 moles of solute are dissolved in 1400 grams.
Daily Log: Practice Problems Test on Friday!
18.3 Colligative Properties of Solutions
Properties that depend on the number of particles dissolved in a given mass of solvent Boiling Point Elevation Freezing Point Depression
Boiling-Point Elevation
∆Tb = Kb x m x im is the molaityi is the number of ions in solution
Kb is the molal boiling point elevation constantIt is dependent on the solvent
Freezing Point Depression
∆Tf = Kf x m x im is the molaityi is the number of ions in solution Kf is the molal freezing point constantIt is also dependent on the solvent
Example:
Determine the boiling point and freezing point of a solution in which 600 grams of MgCl2 is dissolved in 2400 grams of water. (Kb = 0.512 and Kf = 1.86)