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![Page 1: 16.1 Properties of Solutions > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 16 Solutions 16.1 Properties of Solutions.](https://reader036.fdocuments.us/reader036/viewer/2022081721/56649ed15503460f94bdff19/html5/thumbnails/1.jpg)
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Chapter 16Solutions
16.1 Properties of Solutions
16.2 Concentrations of Solutions16.3 Colligative Properties of Solutions16.4 Calculations Involving Colligative Properties
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CHEMISTRY & YOUCHEMISTRY & YOU
How can you grow a tree made out of crystals?
Remember, the crystallization of a solute from solution is a physical change that is different from freezing.
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Solution FormationSolution Formation
Solution Formation
What factors affect how fast a substance dissolves?
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Solution FormationSolution Formation
Granulated sugar dissolves faster than sugar cubes, and both granulated sugar and sugar cubes dissolve faster in hot tea or when you stir the tea.
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Solution FormationSolution Formation
The compositions of the solvent and the solute determine whether or not a substance will dissolve.
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Solution FormationSolution Formation
The compositions of the solvent and the solute determine whether or not a substance will dissolve.
Factors that affect how fast a substance
dissolves include:
• Agitation
• Temperature
• Particle size of the solute
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Solution FormationSolution Formation
AgitationIf the contents of the glass are stirred, the crystals dissolve more quickly.• The dissolving process
occurs at the surface of the sugar crystals.
• Stirring speeds up the process because fresh solvent (the water) is continually brought in contact with the surface of the solute (sugar).
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Solution FormationSolution Formation
AgitationAgitation (stirring or shaking) affects only the rate at which a solid solute dissolves.• It does not influence the
amount of solute that will dissolve.
• An insoluble substance remains undissolved regardless of how vigorously or for how long the solvent/solute system is agitated.
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Solution FormationSolution Formation
Temperature also influences the rate at which a solute dissolves.
• Sugar dissolves much more rapidly in hot tea than in iced tea.
Temperature
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Solution FormationSolution Formation
TemperatureAt higher temperatures, the kinetic energy of water molecules is greater than at lower temperatures, so the molecules move faster.
• The more rapid motion of the solvent molecules leads to an increase in the frequency of the force of the collisions between water molecules and the surfaces of the sugar crystals.
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Solution FormationSolution Formation
Particle Size of the SoluteThe rate at which a solute dissolves also depends upon the size of the solute particles.
• The smaller particles in granulated sugar expose a much greater surface area to the colliding water molecules.
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Solution FormationSolution Formation
Particle Size of the SoluteThe dissolving process is a surface phenomenon.• The more surface area of
the solute that is exposed, the faster the rate of dissolving.
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Which of the following will not speed up the rate at which a solid solute dissolves?
A. Increasing the temperature
B. Stirring the mixture
C. Crushing the solute
D. Decreasing the temperature
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Which of the following will not speed up the rate at which a solid solute dissolves?
A. Increasing the temperature
B. Stirring the mixture
C. Crushing the solute
D. Decreasing the temperature
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SolubilitySolubility
Solubility
How can you describe the equilibrium in a saturated solution?
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SolubilitySolubility
What is happening in this figure?
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SolubilitySolubility
What is happening in this figure?
• Particles move from the solid into the solution.
• Some dissolved particles move from the solution back to the solid.
• Because these two processes occur at the same rate, no net change occurs in the overall system.
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SolubilitySolubility
Such a solution is said to be saturated.
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SolubilitySolubility
Such a solution is said to be saturated.
• A saturated solution contains the maximum amount of solute for a given quantity of solvent at a constant temperature and pressure.
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SolubilitySolubility
In a saturated solution, a state of dynamic equilibrium exists between the solution and any undissolved solute, provided that the temperature remains constant.
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SolubilitySolubility
The solubility of a substance is the amount of solute that dissolves in a given quantity of a solvent at a specified temperature and pressure to produce a saturated solution.
• Solubility is often expressed in grams of solute per 100 g of solvent (g/100 g H2O).
• Sometimes the solubility of a gas is expressed in grams per liter of solution (g/L).
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SolubilitySolubility
A solution that contains less solute than a saturated solution at a given temperature and pressure is an unsaturated solution.
• If additional solute is added to an unsaturated solution, the solute will dissolve until the solution is saturated.
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SolubilitySolubility
Some liquids—for example, water and ethanol—are infinitely soluble in each other.• Two liquids are miscible if they dissolve
in each other in all proportions.
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SolubilitySolubility
Liquids that are insoluble in each other are immiscible.
• Oil and water are examples of immiscible liquids.
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The solubility of a substance is often expressed as which of the following?
A. grams of solute per 100 liters of solvent
B. grams of solute per 1 cm3 of solvent
C. grams of solute per 100 grams of solvent
D. grams of solute per 100 grams of solution
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The solubility of a substance is often expressed as which of the following?
A. grams of solute per 100 liters of solvent
B. grams of solute per 1 cm3 of solvent
C. grams of solute per 100 grams of solvent
D. grams of solute per 100 grams of solution
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Factors Affecting SolubilityFactors Affecting Solubility
Factors Affecting Solubility
What factors affect the solubility of a substance?
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Factors Affecting SolubilityFactors Affecting Solubility
Temperature affects the solubility of solid, liquid, and gaseous solutes in a solvent; both temperature and pressure affect the solubility of gaseous solutes.
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TemperatureThe solubility of most solid substances increases as the temperature of the solvent increases.
Interpret GraphsInterpret Graphs
Temperature (°C)
So
lub
ility
(g
/100
g H
2O)
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TemperatureThe solubility of most solid substances increases as the temperature of the solvent increases.
Interpret GraphsInterpret Graphs
Temperature (°C)
So
lub
ility
(g
/100
g H
2O)• For a few
substances, solubility decreases with temperature.
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Solubilities of Substances in Water at Various Temperatures
Solubility (g/100 g H2O)
Substance Formula 0°C 20°C 50°C 100°C
Barium hydroxide Ba(OH)2 1.67 31.89 — —
Barium sulfate BaSO4 0.00019 0.00025 0.00034 —
Calcium hydroxide Ca(OH)2 0.189 0.173 — 0.07
Potassium chlorate KClO3 4.0 7.4 19.3 56.0
Potassium chloride KCl 27.6 34.0 42.6 57.6
Sodium chloride NaCl 35.7 36.0 37.0 39.2
Sodium nitrate NaNO3 74 88.0 114.0 182
Aluminum chloride AlCl3 30.84 31.03 31.60 33.32
Silver nitrate AgNO3 122 222.0 455.0 733
Sucrose (table sugar) C12H22O11 179 230.9 260.4 487
Hydrogen H2 0.00019 0.00016 0.00013 0.0
Oxygen O2 0.0070 0.0043 0.0026 0.0
Carbon dioxide CO2 0.335 0.169 0.076 0.0
Interpret DataInterpret Data
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Factors Affecting SolubilityFactors Affecting Solubility
A supersaturated solution contains more solute than it can theoretically hold at a given temperature.
• The crystallization of a supersaturated solution can be initiated if a very small crystal, called a seed crystal, of the solute is added.
Temperature
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Factors Affecting SolubilityFactors Affecting Solubility
The rate at which excess solute deposits upon the surface of a seed crystal can be very rapid.
The solution is clear before a seed crystal is added.
Crystals begin to form immediately after the addition of a seed crystal.
Excess solute crystallizes rapidly.
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CHEMISTRY & YOUCHEMISTRY & YOU
How do you think crystal-growing kits work? Use what you know about solubility and supersaturated solutions to explain your answer.
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CHEMISTRY & YOUCHEMISTRY & YOU
How do you think crystal-growing kits work? Use what you know about solubility and supersaturated solutions to explain your answer.Crystal-growing kits usually begin with a supersaturated solution. When a seed crystal is added to the solution, crystals rapidly begin to grow because the supersaturated solution contains more solute than is theoretically possible.
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Factors Affecting SolubilityFactors Affecting Solubility
The effect of temperature on the solubility of gases in liquid solvents is opposite that of solids.• The solubilities of most gases are greater
in cold water than in hot.
Temperature
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Factors Affecting SolubilityFactors Affecting Solubility
Changes in pressure have little effect on the solubility of solids and liquids, but pressure strongly influences the solubility of gases.
• Gas solubility increases as the partial pressure of the gas above the solution increases.
Pressure
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Factors Affecting SolubilityFactors Affecting Solubility
PressureCarbonated beverages are a good example.
• These drinks contain large amounts of carbon dioxide (CO2) dissolved in water.
• Dissolved CO2 makes the liquid fizz and your mouth tingle.
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Factors Affecting SolubilityFactors Affecting Solubility
PressureCarbonated beverages are a good example.
• The drinks are bottled under a high pressure of CO2 gas, which forces larger amounts of the gas into solution.
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Factors Affecting SolubilityFactors Affecting Solubility
PressureCarbonated beverages are a good example.
• When the container is opened, the partial pressure of CO2 above the liquid decreases.
• Immediately, bubbles of CO2 form in the liquid and escape from the open bottle.
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Factors Affecting SolubilityFactors Affecting Solubility
How is the partial pressure of carbon dioxide gas related to the solubility of CO2 in a carbonated beverage?
Pressure
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Factors Affecting SolubilityFactors Affecting Solubility
How is the partial pressure of carbon dioxide gas related to the solubility of CO2 in a carbonated beverage?
• The relationship is described by Henry’s law, which states that at a given temperature, the solubility (S) of a gas in a liquid is directly proportional to the pressure (P) of the gas above the liquid.
Pressure
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Factors Affecting SolubilityFactors Affecting Solubility
• As the pressure of the gas above the liquid increases, the solubility of the gas increases.
• As the pressure of the gas decreases, the solubility of the gas decreases.
Pressure
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Factors Affecting SolubilityFactors Affecting Solubility
You can write the relationship in the form of an equation.
=S1
P1
S2
P2
• S1 is the solubility of a gas at one pressure, P1.
• S2 is the solubility at another pressure, P2.
Pressure
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If the solubility of a gas in water is 0.77 g/L at 3.5 atm of pressure, what is its solubility (in g/L) at 1.0 atm of pressure? (The temperature is held constant at 25°C.)
Sample Problem 16.1Sample Problem 16.1
Using Henry’s Law
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KNOWNS UNKNOWN
S2 = ? g/L
Analyze List the knowns and the unknown.1
Sample Problem 16.1Sample Problem 16.1
Use Henry’s law to solve for the unknown solubility.
P1 = 3.5 atm
S1 = 0.77 g/L
P2 = 1.0 atm
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• State the equation for Henry’s law.
Calculate Solve for the unknowns.2
Sample Problem 16.1Sample Problem 16.1
• Solve Henry’s law for S2. Substitute the known values and calculate.
=S1
P1
S2
P2
Isolate S2 by multiplying both sides by P2:
P2 = P2
S1
P1
S2
P2
S2 = = = 0.22 g/LS1 P2
P1
0.77 g/L 1.0 atm3.5 atm
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• The new pressure is approximately one-third of the original pressure.
• So, the new solubility should be approximately one-third of the original.
• The answer is correctly expressed to two significant figures.
Evaluate Does the result make sense?3
Sample Problem 16.1Sample Problem 16.1
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Explain why an opened container of a carbonated beverage is more likely to go flat sitting on the counter than in the refrigerator.
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Explain why an opened container of a carbonated beverage is more likely to go flat sitting on the counter than in the refrigerator.
The solubility of a gas in a liquid increases with decreasing temperature. More carbon dioxide will remain in solution at the colder temperature found in the refrigerator.
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Key ConceptsKey Concepts
Factors that determine how fast a substance dissolves are stirring, temperature, and surface area.
In a saturated solution, a state of dynamic equilibrium exists between the solution and any undissolved solute, provided that the temperature remains constant.
Temperature affects the solubility of solid, liquid, and gaseous solutes in a solvent; both temperature and pressure affect the solubility of gaseous solutes.
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Key EquationKey Equation
Henry’s law: =S1
P1
S2
P2
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Glossary TermsGlossary Terms
• saturated solution: a solution containing the maximum amount of solute for a given amount of solvent at a constant temperature and pressure; an equilibrium exists between undissolved solute and ions in solution
• solubility: the amount of a substance that dissolves in a given quantity of solvent at specified conditions of temperature and pressure to produce a saturated solution
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Glossary TermsGlossary Terms
• unsaturated solution: a solution that contains less solute than a saturated solution at a given temperature and pressure
• miscible: describes liquids that dissolve in each other in all proportions
• immiscible: describes liquids that are insoluble in each other; oil and water are immiscible
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Glossary TermsGlossary Terms
• supersaturated solution: a solution that contains more solute than it can theoretically hold at a given temperature; excess solute precipitates if a seed crystal is added
• Henry’s law: at a given temperature, the solubility of a gas in a liquid is directly proportional to the pressure of the gas above the liquid
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