CHAPTER 13 Mixtures and Concentrations. Types of Mixtures Solutions Suspensions Colloids.
Chapter 16: MIXTURES
description
Transcript of Chapter 16: MIXTURES
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.
Chapter 16:
MIXTURES
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This lecture will help you understand:
• Most Materials are Mixtures• The Chemist’s Classification of Matter• Solutions• Solubility• Soaps and Detergents• Softening Hard Water• Purifying the Water We Drink• Wastewater Treatment
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Most Materials are Mixtures
• Pure substanceA material consisting of only one type of element or compound.
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• Pure substanceA material consisting of only one type of element or compound.
• MixtureA collection of two or more pure substances.
Most Materials are Mixtures
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• Pure substanceA material consisting of only one type of element or compound.
• MixtureA collection of two or more pure substances.—can be separated by physical means
Most Materials are Mixtures
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Most Materials are Mixtures
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The Chemist’s Classification of Matter
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The Chemist’s Classification of Matter
• Pure materials consist of a single element or compound.
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The Chemist’s Classification of Matter
• Pure materials consist of a single element or compound.
• Impure materials consist of two or more elements or compounds.
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The Chemist’s Classification of Matter
• Pure materials consist of a single element or compound.
• Impure materials consist of two or more elements or compounds.
• Mixtures may be heterogeneous or homogeneous.
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• In heterogeneous mixtures, the different components can be seen as individual substances.
The Chemist’s Classification of Matter
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• In heterogeneous mixtures, the different components can be seen as individual substances.
• In homogenous mixtures, the composition is the same throughout.
The Chemist’s Classification of Matter
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The Chemist’s Classification of Matter
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• Homogeneous mixtures
The Chemist’s Classification of Matter
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• Homogeneous mixtures– Solution: all components in the same phase.
The Chemist’s Classification of Matter
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• Homogeneous mixtures– Solution: all components in the same phase.– Suspension: different components in different
phases.
The Chemist’s Classification of Matter
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Is the air in your house a homogeneous or a heterogeneous mixture?
A. Homogeneous, because it is mixed very well.
B. Heterogeneous, because of the dust particles it contains.
C. Homogeneous, because it is all at the same temperature.
D. Heterogeneous, because it consists of different types of molecules.
The Chemist’s Classification of MatterCHECK YOUR NEIGHBOR
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Is the air in your house a homogeneous or a heterogeneous mixture?
A. Homogeneous, because it is mixed very well.
B. Heterogeneous, because of the dust particles it contains.
C. Homogeneous, because it is all at the same temperature.
D. Heterogeneous, because it consists of different types of molecules.
The Chemist’s Classification of MatterCHECK YOUR ANSWER
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Solutions
• Solution: A homogenous mixture consisting of ions or molecules
• Solvent: The major component of a solution.
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Solutions
• Solution: A homogenous mixture consisting of ions or molecules
• Solvent: The major component of a solution.
• Solute: The minor components of a solution.
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Solutions
• Solution: A homogenous mixture consisting of ions or molecules
• Solvent: The major component of a solution.
• Solute: The minor components of a solution.
• Saturated: Said of a solution in which no more solute will dissolve.
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
Concentration =Solute
Solution
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
Concentration =Solute
Solution
“concentrated”
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
Concentration =Solute
Solution
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
Concentration =Solute
“dilute”
Solution
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
• Mole: A super-large number, 6.02 1023, used to measure numbers of atoms or molecules, a.k.a. Avogadro’s number.
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
• Mole: A super-large number, 6.02 1023, used to measure numbers of atoms or molecules, a.k.a. Avogadro’s number.
The formula mass of a
substance expressed in
grams contains one mole.
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Solutions• Concentration: A measure of the amount
of solute dissolved in solution.
• Mole: A super-large number, 6.02 1023, used to measure numbers of atoms or molecules, a.k.a. Avogadro’s number.
The formula mass of a
substance expressed in
grams contains one mole.
Substance Formula Mass
Carbon, C 12
Oxygen, O2 32
Carbon dioxide, CO2 44
Sucrose, C12H22O11 342
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Solutions
Sucrose, C12H22O11 = 342 g/mole
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Water, H2O, has a formula mass of 18. How many moles of water are there in 18 grams of water?
A. 0.5 moles
B. 1 mole
C. 9 moles
D. 18 moles
SolutionsCHECK YOUR NEIGHBOR
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Water, H2O, has a formula mass of 18. How many moles of water are there in 18 grams of water?
A. 0.5 moles
B. 1 mole
C. 9 moles
D. 18 moles
SolutionsCHECK YOUR ANSWER
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How many grams of water, H2O, are there in 2 moles of water?
A. 1 gram
B. 9 grams
C. 18 grams
D. 36 grams
SolutionsCHECK YOUR NEIGHBOR
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How many grams of water, H2O, are there in 2 moles of water?
A. 1 gram
B. 9 grams
C. 18 grams
D. 36 grams
SolutionsCHECK YOUR ANSWER
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Solutions• Molarity: A unit of concentration expressed
in moles solute per liter of solution.
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Solutions• Molarity: A unit of concentration expressed
in moles solute per liter of solution.
Molarity =Moles of Solute
Liters of Solution
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Solutions• Molarity: A unit of concentration expressed
in moles solute per liter of solution.
• ppm: A unit of concentration expressed in milligrams solute in liters of solution.
• Molarity: A unit of concentration expressed in moles solute per liter of solution.
• ppm: A unit of concentration expressed in milligrams solute in liters of solution.
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Solutions• Molarity: A unit of concentration expressed
in moles solute per liter of solution.
• ppm: A unit of concentration expressed in milligrams solute in liters of solution.
1 ppm =
• Molarity: A unit of concentration expressed in moles solute per liter of solution.
• ppm: A unit of concentration expressed in milligrams solute in liters of solution.
1 part solute
1,000,000 parts solution
1 milligram solute
1 liter solution =
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Solubility
• Solubility: The ability of a solute to dissolve in a solvent.
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Solubility
• Solubility: The ability of a solute to dissolve in a solvent.
• Soluble: Said of a solute that has appreciable solubility.
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Solubility
• Precipitate: Solute that comes out of solution.
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The amount of oxygen, O2, dissolved in the waters of the arctic ocean is greater, about equal to, or less than the amount of oxygen dissolved in warm tropical waters?
A. Greater than
B. About equal
C. Less than
D. It depends
SolubilityCHECK YOUR NEIGHBOR
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The amount of oxygen, O2, dissolved in the waters of the Arctic Ocean is greater, about equal to, or less than the amount of oxygen dissolved in warm tropical waters?
A. Greater than
B. About equal
C. Less than
D. It depends
Explanation:The solubility of oxygen in water decreases with increasing temperature. As a consequence, cold polar oceans tend to be more fertile than warmer tropical waters.
SolubilityCHECK YOUR ANSWER
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By mass, water is 88.88 percent
oxygen. So why can’t we
breathe water?
Chapter 12 ReviewCHECK YOUR NEIGHBOR
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By mass, water is 88.88 percent
oxygen. So why can’t we
breathe water?
Hint: What is the elemental formula for the oxygen we breathe and the chemical formula for water?
Chapter 12 ReviewCHECK YOUR NEIGHBOR
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Soaps and Detergents
• Soaps and detergents have both polar and nonpolar properties.
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Soaps and Detergents
• Soaps and detergents have both polar and nonpolar properties.
• Nonpolar part attracts to the “grime”.
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Soaps and Detergents
• Soaps and detergents have both polar and nonpolar parts.
• Nonpolar part attracts to the “grime”.
• Polar part attracts to water.
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Soaps and Detergents
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Soap attracts “grime” by which type of molecular interaction?
A. Dipole–dipole.
B. Induced dipole–induced dipole.
C. Hydrogen bonding.
D. Dipole–induced dipole.
Soap and DetergentsCHECK YOUR NEIGHBOR
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Soap attracts “grime” by which type of molecular interaction?
A. Dipole–dipole.
B. Induced dipole–induced dipole.
C. Hydrogen bonding.
D. Dipole–induced dipole.
Soap and DetergentsCHECK YOUR ANSWER
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Softening Hard Water
• Hard water has high concentrations of calcium and magnesium.
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Softening Hard Water
• Hard water has high concentrations of calcium and magnesium.
• Undesirable effects
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Softening Hard Water
• Hard water has high concentrations of calcium and magnesium.
• Undesirable effects– Clogged pipes
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Softening Hard Water
• Hard water has high concentrations of calcium and magnesium.
• Undesirable effects– Clogged pipes– Lower cleaning action of soaps and
detergents
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Softening Hard Water
• Hard water has high concentrations of calcium and magnesium.
• Undesirable effects– Clogged pipes– Lower cleaning action of soaps and
detergents– Soap scum
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Softening Hard Water
• Detergent additives attract the Ca2+ and Mg2+ ions in hard water.
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Softening Hard Water
• Detergent additives attract the Ca2+ and Mg2+ ions in hard water.
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Softening Hard Water
• Some homes contain water softening units.
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Softening Hard Water
• Some homes contain water softening units.
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Purifying the Water We Drink
• The first step to purifying water is removing particles and bacteria.
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Purifying the Water We Drink
• The first step to purifying water is removing particles and bacteria.
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• Water is then aerated to improve the taste and smell.
Purifying the Water We Drink
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• Water is then aerated to improve the taste and smell.
• Lastly, the water is disinfected with chlorine gas (or ozone).
Purifying the Water We Drink
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Which of the following is not a method of disinfecting drinking water?
A. Chlorine gas
B. Boiling
C. Aeration
D. Iodine tablets
Purifying the Water We DrinkCHECK YOUR NEIGHBOR
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Which of the following is not a method of disinfecting drinking water?
A. Chlorine gas
B. Boiling
C. Aeration
D. Iodine tablets
Purifying the Water We DrinkCHECK YOUR NEIGHBOR
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• Sea water can be converted to drinking water through desalination.
Purifying the Water We Drink
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• Sea water can be converted to drinking water through desalination.– Distillation– Reverse osmosis
Purifying the Water We Drink
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Purifying the Water We Drink
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Purifying the Water We Drink
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Purifying the Water We Drink
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Wastewater Treatment
• Screening removes large insoluble items.
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Wastewater Treatment
• Screening removes large insoluble items.
• Primary treatment allows smaller insolubles to settle to the bottom or rise to the top for removal.
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Wastewater Treatment
• Screening removes large insoluble items.
• Primary treatment allows smaller insolubles to settle to the bottom or rise to the top for removal.
• Secondary treatment aerates the water and allows finer particles to settle for removal.
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Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley
Wastewater Treatment
• Screening removes large insoluble items.
• Primary treatment allows smaller insolubles to settle to the bottom or rise to the top for removal.
• Secondary treatment aerates the water and allows finer particles to settle for removal.
• Tertiary treatment filters the water.
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Wastewater Treatment
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Wastewater Treatment