chapter 12 solutions. seawater drinking seawater will dehydrate you and give you diarrhea the cell...
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Chapter 12Solutions
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Seawater
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• Drinking seawater will dehydrate you and give you diarrhea
• The cell wall acts as a barrier to solute moving so the only way for the seawater and the cell solution to have uniform mixing is for water to flow out of the cells of your intestine and into your digestive tract
Seawater
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Solutions• Homogeneous mixtures
– composition may vary from one sample to another– appears to be one substance, though really contains
multiple materials
• Most homogeneous materials we encounter are actually solutions– e.g., air and seawater
• Nature has a tendency toward spontaneous mixing– generally, uniform mixing is more energetically
favorable
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Solutions• When table salt is mixed with water, it seems to
disappear, or become a liquid – the mixture is homogeneous– the salt is still there, as you can tell from the taste, or simply
boiling away the water
• Homogeneous mixtures are called solutions• The component of the solution that changes state is
called the solute• The component that keeps its state is called the solvent
– if both components start in the same state, the major component is the solvent
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Examples of Solutions
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Common Types of Solution
Solution PhaseSolute Phase
Solvent Phase Example
Gaseous solutions Gas Gas Air (mostly N2 & O2)
Liquid solutionsGas
LiquidSolid
LiquidLiquidLiquid
Soda (CO2 in H2O)
Vodka (C2H5OH in H2O)
Seawater (NaCl in H2O)
Solid solutions Solid Solid Brass (Zn in Cu)
• Solutions that contain Hg and some other metal are called amalgams
• Solutions that contain metal solutes and a metal solvent are called alloys
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Copyright 2011 Pearson Education, Inc.
Brass
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Solubility• When one substance (solute) dissolves in another
(solvent) it is said to be soluble– salt is soluble in water– bromine is soluble in methylene chloride
• When one substance does not dissolve in another it is said to be insoluble– oil is insoluble in water
• The solubility of one substance in another depends on two factors – nature’s tendency toward mixing, and the types of intermolecular attractive forces
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Spontaneous Mixing
When solutions with different solute concentrations come in contact, they spontaneously mix to result in a uniform distribution of solute throughout the solution
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Mixing and the Solution Process:Entropy
• Most processes occur because the end result has less potential energy
• But formation of a solution does not necessarily lower the potential energy of the system
• When two ideal gases are put into the same container, they spontaneously mix– even though the difference in attractive
forces is negligible• The gases mix because the energy of the
system is lowered through the release of entropy
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Mixing and the Solution ProcessEntropy
• Entropy is the measure of energy dispersal throughout the system
• Energy has a spontaneous drive to spread out over as large a volume as it is allowed
• By each gas expanding to fill the container, it spreads its energy out and lowers its entropy
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Intermolecular Forces and the Solution Process
• Energy changes in the formation of most solutions also involve differences in attractive forces between the particles
• For the solvent and solute to mix you must overcome1. all of the solute–solute attractive forces 2. some of the solvent–solvent attractive forces– both processes are endothermic
• At least some of the energy to do this comes from making new solute–solvent attractions– which is exothermic
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Intermolecular Attractions
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Solution Interactions
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Copyright 2011 Pearson Education, Inc.
Relative Interactions and Solution Formation
• When the solute-to-solvent attractions are weaker than the sum of the solute-to-solute and solvent-to-solvent attractions, the solution will only form if the energy difference is small enough to be overcome by the increase in entropy from mixing
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Solubility• There is usually a limit to the solubility of one
substance in another– gases are always soluble in each other– two liquids that are mutually soluble are said to be
miscible • alcohol and water are miscible• oil and water are immiscible
• The maximum amount of solute that can be dissolved in a given amount of solvent is called the solubility
• The solubility of one substance in another varies with temperature and pressure
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Will It Dissolve?• Chemist’s Rule of Thumb –
Like Dissolves Like• A chemical will dissolve in a solvent if it has a
similar structure to the solvent– when the solvent and solute structures are similar, the
solvent molecules will attract the solute particles at least as well as the solute particles are attracted to each other
• Polar molecules and ionic compounds will be more soluble in polar solvents
• Nonpolar molecules will be more soluble in nonpolar solvents
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Classifying Solvents
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Example 12.1a: Predict whether the following vitamin is soluble in fat or water
Vitamin C
The four OH groups make the molecule highly polar and it will also H-bond to water.
Vitamin C is water soluble.
Water is a polar solvent. Fat is mostly made of nonpolar molecules.
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Example 12.1b: Predict whether the following vitamin is soluble in fat or water
Vitamin K3
The two C=O groups are polar, but their geometric symmetry suggests their pulls will cancel and the molecule will be nonpolar.
Vitamin K3 is fat soluble.
Water is a polar solvent. Fat is mostly made of nonpolar molecules.
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Practice – Decide if the following are more soluble in hexane, C6H14, or water
nonpolar moleculemore soluble in C6H14
polar moleculemore soluble in H2O
nonpolar part dominantmore soluble in C6H14
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Practice – Explain the solubility trends seen in the table below
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Practice – Explain the solubility trends seen in the table below
These alcohols all have a polar OH part and a nonpolar CHn part.
As we go down the table the nonpolar part gets larger, but the amount of OH stays the same.
We therefore expect that the solubility in water (polar solvent) should decrease and the solubility in hexane (nonpolar solvent) should increase, and it does.
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Heat of Solution
• When some compounds, such as NaOH, dissolve in water, a lot of heat is released– the container gets hot
• When other compounds, such as NH4NO3, dissolve in water, heat is absorbed from the surroundings– the container gets cold
• Why is this?
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Energetics of Solution Formation: the Enthalpy of Solution
• To make a solution you must1. overcome all attractions between the solute particles;
therefore DHsolute is endothermic2. overcome some attractions between solvent molecules;
therefore DHsolvent is endothermic3. form new attractions between solute particles and
solvent molecules; therefore DHmix is exothermic• The overall DH for making a solution depends on the
relative sizes of the DH for these three processesDHsol’n = DHsolute + DHsolvent + DHmix
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1. Add energy in to overcome all solute–solute attractions
2. Add energy in to overcome some solvent–solvent attractions
Solution Process
3. Form new solute–solvent attractions, releasing energy
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If the total energy cost for breaking attractions between particles in the pure solute and pure solvent is less than the energy released in making the new attractions between the solute and solvent, the overall process will be exothermic
If the total energy cost for breaking attractions between particles in the pure solute and pure solvent is greater than the energy released in making the new attractions between the solute and solvent, the overall process will be endothermic
Energetics of Solution Formation
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Heats of Hydration• For aqueous solutions of ionic compounds, the heat of
hydration results from– Energy added to overcome the attractions between H2O
molecules – Energy is released in forming attractions between the water
molecules and ions
• The attractive forces between ions = lattice energy• DHsolute = −DHlattice energy
– attractive forces in water = H-bonds– attractive forces between ion and water = ion–dipole– DHhydration = heat released when 1 mole of gaseous ions dissolves
in water = DHsolvent + DHmix
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Ion-Dipole Interactions• When ions dissolve in water they become hydrated
– each ion is surrounded by water molecules• The formation of these ion-dipole attractions causes the heat
of hydration to be very exothermic
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Heats of Solution for Ionic Compounds
• For an aqueous solution of an ionic compound, the DHsolution is the difference between the Heat of Hydration and the Lattice Energy
DHsolution = −DHlattice energy + DHhydration
DHsolution = DHsolute+ DHsolvent + DHmix
DHsolution = −DHlattice energy+ DHsolvent + DHmix
DHsolution = DHhydration− DHlattice energy
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Heat of Hydration
DHsolution = DHhydration− DHlattice energy
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Comparing Heat of Solution to Heat of Hydration
• Because the lattice energy is always exothermic, the size and sign on the DHsoln tells us something about DHhydration
• If the heat of solution is large and endothermic, then the amount of energy it costs to separate the ions is more than the energy released from hydrating the ions– DHhydration < DHlattice when DHsoln is (+)
• If the heat of solution is large and exothermic, then the amount of energy it costs to separate the ions is less than the energy released from hydrating the ions– DHhydration > DHlattice when DHsoln is (−)
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Practice – What is the lattice energy of KI if DHsol’n = +21.5 kJ/mol and the DHhydration = −583 kJ/mol?
the unit is correct, the lattice energy being exothermic is correctCheck:
Solve:
DHsol’n = DHhydration− DHlattice
Conceptual Plan:
Relationships:
DHsol’n = +21.5 kJ/mol, DHhydration = −583 kJ/mol
DHlattice, kJ/mol
Given:Find:
DHsol’n, DHhydration DHlattice
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Solution Equilibrium• The dissolution of a solute in a solvent is an equilibrium
process• Initially, when there is no dissolved solute, the only
process possible is dissolution• Shortly after some solute is dissolved, solute particles
can start to recombine to reform solute molecules – but the rate of dissolution >> rate of deposition and the solute continues to dissolve
• Eventually, the rate of dissolution = the rate of deposition – the solution is saturated with solute and no more solute will dissolve
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Solution Equilibrium
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Solubility Limit• A solution that has the solute and solvent in dynamic
equilibrium is said to be saturated– if you add more solute it will not dissolve– the saturation concentration depends on the temperature
• and pressure of gases
• A solution that has less solute than saturation is said to be unsaturated– more solute will dissolve at this temperature
• A solution that has more solute than saturation is said to be supersaturated
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How Can You Make a Solvent Hold More Solute Than It Is Able To?
• Solutions can be made saturated at non-room conditions – then allowed to come to room conditions slowly
• For some solutes, instead of coming out of solution when the conditions change, they get stuck in-between the solvent molecules and the solution becomes supersaturated
• Supersaturated solutions are unstable and lose all the solute above saturation when disturbed– e.g. shaking a carbonated beverage
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Adding a Crystal of NaC2H3O2 to a Supersaturated Solution
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Temperature Dependence of Solubility of Solids in Water
• Solubility is generally given in grams of solute that will dissolve in 100 g of water
• For most solids, the solubility of the solid increases as the temperature increases– when DHsolution is endothermic
• Solubility curves can be used to predict whether a solution with a particular amount of solute dissolved in water is saturated (on the line), unsaturated (below the line), or supersaturated (above the line)
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Solubility Curves
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Temperature Dependence of Solid Solubility in Water (g/100 g H2O)
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Purification by Recrystallization• One of the common operations
performed by a chemist is removing impurities from a solid compound
• One method of purification involves dissolving a solid in a hot solvent until the solution is saturated
• As the solution slowly cools, the solid crystallizes out, leaving impurities behind
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Recrystallization of KNO3
• KNO3 can be purified by dissolving a little less then 106 g in 100 g of water at 60 ºC then allowing it to cool slowly
• When it cools to 0 ºC only 13.9 g will remain in solution, the rest will precipitate out
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50 g KNO3 in 100 g H2O @ 34 ºC
50 g KNO3 in 100 g H2O @ 50 ºC
50 g KNO3 in 50 g H2O @ 50 ºC
100 g NH4Cl in 200 g H2O @ 70 ºC
saturated
unsaturated
supersaturated
unsaturated
Practice – Decide if each of the following solutions is saturated, unsaturated, or supersaturated
100 g NH4Cl in 150 g H2O @ 50 ºCsupersaturated
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Temperature Dependence of Solubility of Gases in Water
• Gases generally have lower solubility in water than ionic or polar covalent solids because most are nonpolar molecules– gases with high solubility usually are actually reacting
with water• For all gases, the solubility of the gas decreases
as the temperature increases– the DHsolution is exothermic because you do not need
to overcome solute–solute attractions
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Temperature Dependence of Gas Solubility in Water (g/100 g H2O)
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Pressure Dependence of Solubility of Gases in Water
• The larger the partial pressure of a gas in contact with a liquid, the more soluble the gas is in the liquid
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Henry’s Law
• The solubility of a gas (Sgas) is directly proportional to its partial pressure, (Pgas)
Sgas = kHPgas
• kH is called the Henry’s Law Constant
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Relationship between Partial Pressure and Solubility of a Gas
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persrst
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S=kHP, kH= 58 M/atm, 1 atm = 760torr, 1 mol =17.04 g
Solve:
Conceptual Plan:
Relationships:
P of NH3 = 7.6 torr; 0.10 L
mass of NH3, g
Given:
Find:
Practice – How many grams of NH3 will dissolve in 0.10 L of solution when its partial pressure is 7.6 torr?
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Concentrations
• Solutions have variable composition• To describe a solution, you need to describe the
components and their relative amounts• The terms dilute and concentrated can be used as
qualitative descriptions of the amount of solute in solution
• Concentration = amount of solute in a given amount of solution– occasionally amount of solvent
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Solution ConcentrationMolarity
• Moles of solute per 1 liter of solution• Used because it describes how many
molecules of solute in each liter of solution• If a sugar solution concentration is 2.0 M, 1
liter of solution contains 2.0 moles of sugar, 2 liters = 4.0 moles sugar, 0.5 liters = 1.0 mole sugar
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Molarity and Dissociation• The molarity of the ionic compound allows you to
determine the molarity of the dissolved ionsCaCl2(aq) = Ca2+(aq) + 2 Cl−(aq)
• A 1.0 M CaCl2(aq) solution contains 1.0 moles of CaCl2 in each liter of solution– 1 L = 1.0 moles CaCl2, 2 L = 2.0 moles CaCl2
• Because each CaCl2 dissociates to give one Ca2+, a 1.0 M CaCl2 solution is 1.0 M Ca2+
– 1 L = 1.0 moles Ca2+, 2 L = 2.0 moles Ca2+
• Because each CaCl2 dissociates to give 2 Cl−, a 1.0 M CaCl2 solution is 2.0 M Cl−
– 1 L = 2.0 moles Cl−, 2 L = 4.0 moles Cl−
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Solution ConcentrationMolality, m
• Moles of solute per 1 kilogram of solvent– defined in terms of amount of solvent, not solution
• like the others
• Does not vary with temperature– because based on masses, not volumes
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Parts Solute in Parts Solution • Parts can be measured by mass or volume• Parts are generally measured in same units
– by mass in grams, kilogram, lbs, etc.– by volume in mL, L, gallons, etc.– mass and volume combined in grams and mL
• Percentage = parts of solute in every 100 parts solution– if a solution is 0.9% by mass, then there are 0.9 grams of
solute in every 100 grams of solution• or 0.9 kg solute in every 100 kg solution
• Parts per million = parts of solute in every 1 million parts solution– if a solution is 36 ppm by volume, then there are 36 mL of
solute in 1 million mL of solution
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Percent Concentration
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Parts Per Million Concentration
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PPM• grams of solute per 1,000,000 g of solution• mg of solute per 1 kg of solution• 1 liter of water = 1 kg of water
– for aqueous solutions we often approximate the kg of the solution as the kg or L of water
• for dilute solutions, the difference in density between the solution and pure water is usually negligible
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Parts Per Billion Concentration
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Using Concentrations asConversion Factors
• Concentrations show the relationship between the amount of solute and the amount of solvent– 12%(m/m) sugar(aq) means 12 g sugar 100 g solution
• or 12 kg sugar 100 kg solution; or 12 lbs. 100 lbs. solution
– 5.5%(m/v) Ag in Hg means 5.5 g Ag 100 mL solution– 22%(v/v) alcohol(aq) means 22 mL EtOH 100 mL solution
• The concentration can then be used to convert the amount of solute into the amount of solution, or vice- versa
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Example 12.3: What volume of 10.5% by mass soda contains 78.5 g of sugar?
the unit is correct, the magnitude seems reasonable as the mass of sugar 10% the volume of solution
Check:
Solve:
100 g sol’n = 10.5 g sugar, 1 mL sol’n = 1.04 g
Conceptual Plan:
Relationships:
78.5 g sugar
volume, mLGiven:
Find:
g solute g sol’n mL sol’n
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Preparing a Solution
• Need to know amount of solution and concentration of solution
• Calculate the mass of solute needed– start with amount of solution– use concentration as a conversion factor
• 5% by mass Þ 5 g solute 100 g solution
– “Dissolve the grams of solute in enough solvent to total the total amount of solution.”
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Practice – How would you prepare 250.0 mL of 19.5% by mass CaCl2? (d = 1.18 g/mL)
Dissolve 57.5 g of CaCl2 in enough water to total 250.0 mL
Answer:
Solve:
100 g soln = 19.5 g CaCl2, 1 mL soln = 1.18 g
Conceptual Plan:
Relationships:
250.0 mL solution
mass CaCl2, gGiven:
Find:
mL sol’n g sol’n g solute
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Solution ConcentrationsMole Fraction, XA
• The mole fraction is the fraction of the moles of one component in the total moles of all the components of the solution
• Total of all the mole fractions in a solution = 1• Unitless • The mole percentage is the percentage of the moles of
one component in the total moles of all the components of the solution– = mole fraction x 100%
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Practice – Calculate the molarity of a solution made by dissolving 34.0 g of NH3 in 2.00 x 103 mL of solution
the unit is correct, the magnitude is reasonableCheck:
Solve:
M = mol/L, 1 mol NH3 = 17.04 g, 1 mL = 0.001 L
Conceptual Plan:
Relationships:
34.0 g NH3, 2000 mL sol’n
MGiven:
Find:
g NH3 mol NH3
mL sol’n L sol’nM
2.00 mol NH3, 2.00 L sol’n
M
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2.00 mol NH3, 2.00 kg H2O
m
Practice – Calculate the molality of a solution made by dissolving 34.0 g of NH3 in 2.00 x 103 mL of water
the unit is correct, the magnitude is reasonableCheck:
Solve:
m=mol/kg, 1 molNH3=17.04 g, 1kg=1000 g, 1.00g=1 mL
Conceptual Plan:
Relationships:
34.0 g NH3, 2000 mL H2O
mGiven:
Find:
g NH3 mol NH3
mL H2O g H2Om
kg H2O
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2.00 mol NH3, 1.97 kg H2O
m
Practice – Calculate the molality of a solution made by dissolving 34.0 g of NH3 in 2.00 x 103 g of solution
the unit is correct, the magnitude is reasonableCheck:
Solve:
m=mol/kg, 1 molNH3=17.04 g, 1kg=1000 g
Conceptual Plan:
Relationships:
34.0 g NH3, 2000 g solution
mGiven:
Find:
g NH3 mol NH3
g sol’n g H2Om
kg H2O
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34.0 g NH3, 2000 g H2O, 2034 g sol’n
%(m/m)
Practice – Calculate the percent by mass of a solution made by dissolving 34.0 g of NH3 in 2.00 x 103 mL of water
the unit is correct, the magnitude is reasonableCheck:
Solve:% = g/g x 100%, 1.00 g=1 mL
Conceptual Plan:
Relationships:
34.0 g NH3, 2000 mL H2O
%(m/m)Given:
Find:
g NH3
mL H2O%g sol’n
g H2O
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0.340 g NH3, 2000 g H2O, 2000 g sol’n
ppm
Practice – Calculate the parts per million of a solution made by dissolving 0.340 g of NH3 in 2.00 x 103 mL of water
the unit is correct, the magnitude is reasonableCheck:
Solve:ppm = g/g x 106, 1.00 g=1 mL
Conceptual Plan:
Relationships:
0.340 g NH3, 2000 mL H2O
ppmGiven:
Find:
g NH3
mL H2Oppmg sol’n
g H2O
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34.0 g NH3, 2000 mL H2O
c
2.00 mol NH3, 111.1 mol H2O, 113.1 tot mol
c
Practice – Calculate the mole fraction of a solution made by dissolving 34.0 g of NH3 in 2.00 x 103 mL of water
the unit is correct, the magnitude is reasonableCheck:
Solve:
c=mol/mol, 1 mol NH3=17.04 g, 1mol H2O =18.02 g, 1.00 g =1 mL
Conceptual Plan:
Relationships:
Given:
Find:
g NH3 mol NH3
mL H2O g H2Oc
mol H2O
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Converting Concentration Units1. Write the given concentration as a ratio2. Separate the numerator and denominator
– separate into the solute part and solution part
3. Convert the solute part into the required unit4. Convert the solution part into the required unit5. Use the definitions to calculate the new
concentration units
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Practice – Calculate the molality of a 16.2 M H2SO4 solution
16.2 mol H2SO4, 1.00 L sol’n
m
16.2 mol H2SO4, 0.210 kg H2O
m
the unit is correct, the magnitude is reasonableCheck:
Solve:
m=mol/kg, 1molH2SO4=98.08g, 1kg=1000g, 1.80g=1mL
Conceptual Plan:
Relationships:
16.2 M H2SO4
mGiven:
Find:
L
mol H2SO4
g sol’ng H2O
mkg H2OmL
g H2SO4
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Colligative Properties• Colligative properties are properties whose value depends
only on the number of solute particles, and not on what they are– value of the property depends on the concentration of the
solution• The difference in the value of the property between the
solution and the pure substance is generally related to the different attractive forces and solute particles occupying solvent molecules positions
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• The vapor pressure of a solvent above a solution is lower than the vapor pressure of the pure solvent– the solute particles replace some of the solvent
molecules at the surface
The pure solvent establishes a liquid vapor
equilibrium
Vapor Pressure of Solutions
Eventually, equilibrium is re-established, but with a smaller number of vapor molecules –
therefore the vapor pressure will be lower
Addition of a nonvolatile solute reduces the rate of
vaporization, decreasing the amount of vapor
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Thirsty Solutions Revisited
• A concentrated solution will draw solvent molecules toward it due to the natural drive for materials in nature to mix
• Similarly, a concentrated solution will draw pure solvent vapor into it due to this tendency to mix
• The result is reduction in vapor pressure
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When equilibrium is established, the liquid level in the solution beaker is higher than the solution level in the pure solvent beaker – the thirsty solution grabs and holds solvent vapor more effectively
Beakers with equal liquid levels of pure solvent and a solution are placed in a bell jar. Solvent molecules evaporate from each one and fill the bell jar, establishing an equilibrium with the liquids in the beakers.
Thirsty Solutions
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Raoult’s Law
• The vapor pressure of a volatile solvent above a solution is equal to its normal vapor pressure, P°, multiplied by its mole fraction in the solution
Psolvent in solution = csolvent∙P°– because the mole fraction is always less than 1,
the vapor pressure of the solvent in solution will always be less than the vapor pressure of the pure solvent
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Practice - Calculate the total vapor pressure of a solution made by dissolving 25.0 g of glucose (C6H12O6) in 215 g of water at 50 °C
Solve:
P°H2O = 92.5torr, 1mol C6H12O6 = 180.2g, 1mol H2O = 18.02g
Conceptual Plan:
Relationships:
25.0 g C6H12O6, 215 g H2O
PH2O
Given:
Find:
g C6H12O6 mol C6H12O6
g H2O mol H2OCH2O PH2O
because glucose is nonvolatile, the total vapor pressure = vapor pressure H2O
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Vapor Pressure Lowering• The vapor pressure of a solvent in a solution is always
lower than the vapor pressure of the pure solvent• The vapor pressure of the solution is directly
proportional to the amount of the solvent in the solution
• The difference between the vapor pressure of the pure solvent and the vapor pressure of the solvent in solution is called the vapor pressure lowering
DP = Pºsolvent − Psolution = csolute Pºsolvent
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Raoult’s Law for Volatile Solute• When both the solvent and the solute can evaporate, both
molecules will be found in the vapor phase• The total vapor pressure above the solution will be the sum
of the vapor pressures of the solute and solvent– for an ideal solution
Ptotal = Psolute + Psolvent
• The solvent decreases the solute vapor pressure in the same way the solute decreased the solvent’s
Psolute = csoluteP°solute and Psolvent = csolventP°solvent
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0.500 mol C4H10O, PC4H10O=293 torr, 0.250 mol C2H6O, PC2H6O=14.9 torr
Ptotal
0.500 mol C4H10O, Pºether=440 torr, 0.250 mol C2H6O, Pºethanol = 44.6 torr
Ptotal
Practice – Calculate the total vapor pressure of an ideal solution made by mixing 0.500 mol of ether (C4H10O) with 0.250 mol of ethanol (C2H6O) at
20°C
Solve:
Conceptual Plan:
Relationships:
Given:
Find:
mol C4H10O
mol C2H6Oc P
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Ideal vs. Nonideal Solution
• In ideal solutions, the made solute–solvent interactions are equal to the sum of the broken solute–solute and solvent–solvent interactions– ideal solutions follow Raoult’s Law
• Effectively, the solute is diluting the solvent• If the solute–solvent interactions are stronger
or weaker than the broken interactions the solution is nonideal
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Vapor Pressure of a Nonideal Solution
• When the solute–solvent interactions are stronger than the solute–solute solvent–solvent, the total vapor pressure of the solution will be less than predicted by Raoult’s Law– because the vapor pressures of the solute and solvent are lower
than ideal
• When the solute–solvent interactions are weaker than the solute–solute solvent–solvent, the total vapor pressure of the solution will be more than predicted by Raoult’s Law
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Deviations from Raoult’s Law
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Other Colligative Properties Related to Vapor Pressure Lowering
• Vapor pressure lowering occurs at all temperatures
• This results in the temperature required to boil the solution being higher than the boiling point of the pure solvent
• This also results in the temperature required to freeze the solution being lower than the freezing point of the pure solvent
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Freezing Salt Water• Pure water freezes at 0 ºC. At this temperature, ice and liquid
water are in dynamic equilibrium.• Adding salt disrupts the equilibrium. The salt particles
dissolve in the water, but do not attach easily to the solid ice.• When an aqueous solution containing a dissolved solid solute
freezes slowly, the ice that forms does not normally contain much of the solute.
• To return the system to equilibrium, the temperature must be lowered sufficiently to make the water molecules slow down enough so that more can attach themselves to the ice.
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Freezing Point Depression• The freezing point of a solution is lower than the freezing point of
the pure solvent– therefore the melting point of the solid solution is lower
• The difference between the freezing point of the solution and freezing point of the pure solvent is directly proportional to the molal concentration of solute particles
(FPsolvent – FPsolution) = DTf = mKf
• The proportionality constant is called the Freezing Point Depression Constant, Kf
– the value of Kf depends on the solvent– the units of Kf are °C/m
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Kf
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Practice – Calculate the molar mass of a compound if a solution of 12.0 g dissolved in 80.0 g of water freezes at −1.94 °C
Solve:
DTf=mKf, m =mol/kg, MM=g/mol, Kf=1.86 °C/m, FPH2O=0.00 °C
Conceptual Plan:
Relationships:
masssolute = 12.0 g, massH2O= 80.0 g, FPsol’n = −1.94°C
Tf, °C
Given:
Find:
DTf =FPH2O−FPsol’n m kgH2O= mol
mDTfFPsol’n mol MM
MM=g/mol
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Boiling Point Elevation• The boiling point of a solution is higher than the boiling point of
the pure solvent– for a nonvolatile solute
• The difference between the boiling point of the solution and boiling point of the pure solvent is directly proportional to the molal concentration of solute particles
(BPsolution – BPsolvent) = DTb = mKb
• The proportionality constant is called the Boiling Point Elevation Constant, Kb
– the value of Kb depends on the solvent– the units of Kb are °C/m
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Practice – Calculate the boiling point of a solution made by dissolving 1.00 g of glycerin, C3H8O3, in 54.0 g of water
Solve:
m = mol/kg, DTb = mKb, Kb for H2O = 0.512 °C/m,
BPH2O = 100.0 °C, 1 mol C3H8O3 = 92.09 g
Conceptual Plan:
Relationships:
1.00 g C3H8O3, 54.0 g H2O
Tb, sol’n, °C
Given:
Find:
m DTbg C3H8O3, kg H2O
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Osmosis• Osmosis is the flow of solvent from a solution
of low concentration into a solution of high concentration
• The solutions may be separated by a semi-permeable membrane
• A semi-permeable membrane allows solvent to flow through it, but not solute
Tro: Chemistry: A Molecular Approach, 2/e
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Osmotic Pressure• The amount of pressure needed to keep
osmotic flow from taking place is called the osmotic pressure
• The osmotic pressure, P, is directly proportional to the molarity of the solute particles– R = 0.08206 (atm L)/(mol K)∙ ∙
P = MRT
Tro: Chemistry: A Molecular Approach, 2/e
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Tro: Chemistry: A Molecular Approach, 2/e
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Practice – What is the molar mass of lysozyme if 0.0750 g per 100.0 mL gives an osmotic pressure of 1.32x 10−3 atm at 25 °C?
Solve:
P=MRT, T(K)=T(°C)+273.15, R= 0.08206atm∙L/mol∙KM = mol/L, 1 mL = 0.001 L, MM=g/mol, 1atm =760 torr
Conceptual Plan:
Relationships:
0.0750 g/100 mL, P = 1.32 x 10−3 atm, T = 25 °C
molar mass, g/mol
Given:
Find:
P,T M
mL L mol protein
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Van’t Hoff Factors• Ionic compounds produce multiple solute
particles for each formula unit • The theoretical van’t Hoff factor, i, is the ratio
of moles of solute particles to moles of formula units dissolved
• The measured van’t Hoff factors are generally less than the theoretical due to ion pairing in solution– therefore the measured van’t Hoff factor often
causes the DT to be lower than you might expect
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Example 12.11: What is the measured van’t Hoff factor if 0.050 m CaCl2(aq) has freezing point of −0.27 ºC ?
Solve:
DTf = i∙m∙Kf, Kf for H2O = 1.86 °C/m, FPH2O = 0.00 °C
Conceptual Plan:
Relationships:
0.050 m CaCl2(aq), Tf = −0.27°C
i
Given:
Find:
m, DTf i
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Example 12.12: A solution contains 0.102 mol Ca(NO3)2 and 0.927 mol H2O. Calculate the vapor pressure of the solution at 55 ºC
Solve:
Psolution = i∙c 2H O∙PºH2O
Conceptual Plan:
Relationships:
0.102 mol Ca(NO3)2(aq), 0.927 mol H2O, T = 55 °C, P°H2O = 118.1 torr (at 55 °C)
Psolution
Given:
Find:c, PH2O Psolution
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Practice – Calculate the theoretical boiling point of a solution made by dissolving 10.0 g of NaCl in 54.0 g of H2O
Solve:
m = mol/kg, DTb = imKb Kb for H2O = 0.512 °C/m,
BPH2O = 100.0°C, 1 mol C3H8O3 = 92.09 g
Conceptual Plan:
Relationships:
10.0 g NaCl, 54.0 g H2O
Tb, sol’n, °C
Given:
Find:
m DTbg NaCl, kg H2O
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An isosmotic solution has the same osmotic pressure as the solution inside the cell – as a result there is no net flow of water into or out of the cell
A hyperosmotic solution has a higher osmotic pressure than the solution inside the cell – as a result there is a net flow of water out of the cell, causing it to shrivel
A hyposmotic solution has a lower osmotic pressure than the solution inside the cell – as a result there is a net flow of water into the cell, causing it to swell
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Mixtures• Solutions = homogeneous• Suspensions = heterogeneous, separate on
standing• Colloids = heterogeneous, do not separate on
standing– particles can coagulate– cannot pass through semi-permeable membrane– hydrophilic
• stabilized by attraction for solvent (water)– hydrophobic
• stabilized by charged surface repulsions
• Show the Tyndall Effect and Brownian motion
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Mixtures
110
SuspenionColloidSolution
nonevisiblenone visibleBrownian movement
scatter all lightTyndall EffectnoneLight scattering
visiblevisibleinvisibleVisibility of particle w/ elec. mcrscp.
visiblebarely visibleinvisibleVisibility of particle w/ lite microscope
nonesmalllargeColligative properties
retainedretained pass through
Ultrafilters
retainedpass throughpass through
Ordinary filters
settle outsettle outnoneCentrifuge effect
settle outnonenoneGravity effect
> 1000 nm1-1000 nm< 1 nmParticle size
negligiblemany maybeElectrical charge
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Brownian Motion
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Types of Colloidal Suspensions
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Soaps• Triglycerides can be broken down into fatty acid salts and
glycerol by treatment with a strong hydroxide solution• Fatty acid salts have a very polar “head” because it is ionic
and a very nonpolar “tail” because it is all C and H– hydrophilic head and hydrophobic tail
• This unique structure allows the fatty acid salts, called soaps, to help oily substances be attracted to water – micelle formation – emulsification
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Soap
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Soap
115