1 water and the properties of liquids chapter 13 hein and arena eugene passer chemistry department...
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Water and theProperties of Liquids
Chapter 13
Water and theProperties of Liquids
Chapter 13
Hein and Arena
Eugene PasserChemistry DepartmentBronx Community College
© John Wiley and Sons, Inc.
Version 1.0
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Chapter Outline13.1 What is a Liquid
13.2 Evaporation
13.3 Vapor Pressure 13.10 Structure of the Water Molecule
13.11 The Hydrogen Bond
13.4 Surface Tension
13.5 Boiling Point
13.9 Physical Properties of Water
13.12 Formation and Chemical Properties of Water
13.13 Hydrates
13.6 Freezing Point or Melting Point
13.7 Changes of State
13.8 Occurrence of Water
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The properties of liquids are intermediate between the extremes of gases and liquids.
What is a LiquidWhat is a Liquid
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Properties of a Liquid
• Particles are close together
• Incompressible
• Definite volume
• Takes the shape of its container
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When molecules of higher than average kinetic energy escape from a liquid, the remaining liquid is cooler than it was before they escaped.
liquid vaporevaporation
Evaporation or vaporization is the escape of molecules from the liquid state to the gas or vapor state.
EvaporationEvaporation
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H2O(l) → H2O(g)
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Sublimation occurs when a solid changes directly to a gas bypassing the liquid state.
I2(s) → I2(g)
solid vaporsublimation
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Vapor pressure is the pressure exerted by a vapor in equilibrium with its liquid.
liquid vaporevaporation
condensation
In a closed system after a liquid evaporates some of the vapor molecules strike the surface of the container and return to the liquid by condensation.
Vapor PressureVapor Pressure
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13.1
Molecules in an open beaker evaporate from the liquid and disperse into the atmosphere. Evaporation will continue until all of the liquid is gone.
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13.1
Molecules leaving the liquid are confined to a limited space. With time, the concentration in the vapor phase will increase until an equilibrium between liquid and vapor is established.
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• Vapor pressure is independent of the amount of liquid and vapor present.
• It increases with temperature.
Measurement of Vapor Pressure at 20oC and 30oC
Measurement of Vapor Pressure at 20oC and 30oC
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• The system is evacuated.• The mercury manometer
attached to the flask shows equal pressure in both legs.
T = 200C13.2
Vapor Pressure Measurement
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• Water has been added to the flask.
T = 200C
• The water begins to evaporate.
• This water exerts a vapor pressure which is indicated by the manometer.
13.2
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• When equilibrium is established, the vapor pressure of the water inside the flask remains constant at 17.5 torr.
T = 200C13.2
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• The temperature is changed to 30oC.
T = 300C
• Equilibrium is reestablished.
• The vapor pressure of the water has increased to 31.8 torr.
13.2
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Rate of evaporation: ethyl ether > ethyl alcohol > water
Vapor pressure at any temperature: ethyl ether > ethyl alcohol > water
The rate of evaporation of a liquid is proportional to its vapor pressure.
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Volatility
T = 20oC
vapor pressure ethyl ether = 442.2 torr
vapor pressure water = 17.5 torr
vapor pressure mercury = 0.0012 torr
moderately volatile
nonvolatile
volatile
Substances that evaporate readily are said to be volatile.
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Surface tension is the resistance of a liquid to an increase in its surface area.
Surface TensionSurface Tension
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• Surface tension is the result of the molecules at the surface of a liquid being pulled inward by molecules that lie below the surface layer.
• This pulls the surface of a liquid into a sphere.
• Substances with large attractions between molecules have high surface tensions.
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Capillary action is the spontaneousrising of a liquid in a narrow tube.
Capillary Action
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• Capillary action results from the cohesive forces within the liquid and the adhesive forces between the liquid and the walls.
• If the adhesive forces between the liquid and the walls of its container exceed the cohesive forces between the molecules of the liquid, the liquid will climb the walls of the container.
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Meniscus
• When a liquid is placed in a glass cylinder, the surface of the liquid shows a curve called the meniscus.
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meniscus concaveshape
concave shape occurs because adhesive forces between water and glass > cohesive forces between water molecules
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• Boiling point is the temperature at which the vapor pressure of a liquid is equal to the external pressure above the liquid.
• The normal boiling point is the temperature at which a liquid boils at one atmosphere pressure.
Boiling PointBoiling Point
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water boils when its vapor pressure = 1 atm
or 760 torr
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The normal boiling points for different substances can be plotted on a vapor pressure versus temperature curve.
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13.4
Vapor pressure-temperature curves for ethyl-ether, ethyl alcohol and water.
1 atmosphere pressure
ethyl alcohol boiling point
78.4oC
Each point on the curve represents a vapor-liquid equilibrium at a particular temperature and pressure.
water boiling point
100.0oC
ethyl ether boiling point
34.6oC
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The boiling point at any temperature can be found.
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29At 500 torr the boiling point of ethyl alcohol = 68oCAt 700 torr the boiling point of ethyl alcohol = 77oC
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• A liquid changing into a solid is said to be freezing or solidifying.
• A solid that is changing into a liquid is said to be melting.
Freezing PointFreezing Pointor Melting Pointor Melting Point
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The temperature at which the solid phase of a substance is in equilibrium with its liquid phase is know as the freezing point or melting point of the substance.
solid liquidmelting
freezing
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32H2O(s) H2O(l)melting
freezing
Pressure = 1 atmosphere
Temperature = 0oC
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13.5Heating curve for a pure substance.
Changes of StateChanges of State
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The energy required to change one gram of a solid at its melting point into a liquid is called the heat of fusion.
Heat of FusionHeat of Fusion
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The heat of fusion of ice at 0oC is 335 J/g.
How many joules of energy are needed to change 10.0 g of ice at 0.00oC to water 20.0oC?
Determine the joules necessary to melt 10.0 g of ice.
33.35 x 10 J 10.0 g335 J
=1 g
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How many joules of energy are needed to change 10.0 g of ice at 0.00oC to water 20.0oC?
Determine the joules necessary to heat 10.0 g of water from 0.00oC to 20.0oC.
The total heat absorbed by the system is the heat required to melt the ice plus the heat required to raise the water temperature from 0.00oC to 20oC.
3350 J + 837 J = 4.19 x 103 J
The specific heat of water is 4.184 J/goC.
837 J 10.0 g o
4.184 J1 g C
o20.0 C =
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The energy required to change one gram of a liquid at its boiling point into a vapor is called the heat of vaporization.
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How many kilojoules of energy are needed to change 20.0 g of water at 20.0oC to steam at 100.0oC?
Determine the kilojoules necessary to heat 20.0 g from 20oC to 100oC.
6.71 kJ 20.0 g o
4.184 Jg C
The specific heat of water is 4.184 J/goC.
(mass) (sp.ht) (Δt) = energy
1 kJ1000 J
o o100. C - 20.0 C
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How many kilojoules of energy are needed to change 20.0 g of water at 20.0oC to steam at 100.0oC?
Determine the kilojoules necessary to change 20.0 g of water at 100.oC to steam at 100.oC.
45.2 kJ 20.0 g2.26 kJ
1 g
The total heat absorbed by the system is the heat required to raise the water temperature from 20oC to 100oC plus the heat required to raise to change the water to steam.
3350 J + 837 J = 4.19 x 103 J
The heat of vaporization of water at 100.oC is 2.26 kJ/g.
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• Water covers about 75% of the earth’s surface.
• About 97% of the earth’s water is in the oceans.
• About 3% of the earth’s water is in the fresh water and two-thirds of this is locked up in polar ice caps and glaciers.
Occurrence of WaterOccurrence of Water
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• 70 elements have been detected in seawater.– Chlorine, sodium, magnesium and
bromine are commercially extracted from sea water.
• Water constitutes about 70% of human body mass.– 92% of blood plasma is water.
– 80% of muscle tissue is water.
– 60% of a red blood cell is water.
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Ice and water exist together in equilibrium at 0oC.
Physical Properties of WaterPhysical Properties of Water
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43H2O(s) H2O(l)melting
freezing
Pressure = 1 atmosphere
Temperature = 0oC
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• The density of water reaches a maximum at 4oC.
• As it cools to 4oC it contracts in volume and rises in density.
• When it is cooled from 4oC to 0oC it expands in volume and decreases in density.
• When water changes to ice its volume expands by 9%. The density of ice at 0oC is less than the density of water at 0oC. This is why ice floats in water.
Density of WaterDensity of Water
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• O-H bond length = 0.096 nm• H-O-H bond angle = 105o
• Shape: nonlinear, bent
Structure of theStructure of theWater MoleculeWater Molecule
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• Each OH bond is polar.– Electronegativity hydrogen = 2.1
– Electronegativity oxygen = 3.5
– Hydrogen has a partial positive charge and oxygen has a partial negative charge.
• The nonlinear structure of water accounts for the polarity of the molecule.
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(a) Lewis structure of water showing electron distribution.
unpaired electrons
(b) Bond angle and bond length.
(c) Molecular orbital structure.
(c) Dipole representation.
EN = 2.1
EN = 3.5
13.7
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water has the highest
melting point
water has the highest
boiling point
water has the highest heat of vaporization
water has the highest heat of fusion
water has the lowest
molar mass
The melting point, boiling point, heat of fusion and heat of vaporization of water are extremely high and do not fit the trend of properties relative to molar mass within Group VIA.
The Hydrogen BondThe Hydrogen Bond
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Water exhibits these unusual properties because of hydrogen bonding between water molecules.
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• A hydrogen bond is an intermolecular bond.
F—HO—HN—H
• A hydrogen bond is formed between polar molecules that contain hydrogen covalently bonded to a small, highly electronegative atom: F, O, N.
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• When hydrogen is attached to one of the small electronegative atoms: F, O, or N, it will be attracted to another F, O, or N, on another molecule.
hydrogen bond
covalent bond
covalent bond
• A dipole-dipole bond bond will be formed between the two molecules which is called a hydrogen bond.
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13.8
Water in the liquid and solid states exists as aggregates in which the water molecules are linked together by hydrogen bonds.
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• Up to 2000oC water decomposes no more than 1%.
2H2O(l) 2H2(g) + O2(g)electrical energy
H2SO4 or NaOH
• If small amounts of H2SO4 or NaOH are added to water it will be decomposed by an electric current.
DecompositionDecomposition
Formation and Chemical Formation and Chemical Properties of WaterProperties of Water
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1. Combination2H2 + O2 → 2H2O + 484 kJ
2. NeutralizationHCl(aq) + NaOH(aq) → NaCl(aq) + H2O(l)
3. Combustion of hydrogen containing substances.CH4(g) + 2O2(g) → CO2(g) + 2H2O(g) + 803kJ
4. Metabolic oxidation in living cells.
C6H12O6(aq) + 6O2(g) 6CO2(g) + 6H2O(l) + 2519 kJenzymes
FormationFormationFormationFormation
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Reactions of Water with Reactions of Water with Metals and NonmetalsMetals and Nonmetals
Reactions of Water with Reactions of Water with Metals and NonmetalsMetals and Nonmetals
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1. Metals that react with cold water to produce hydrogen and a metal hydroxide
2Na(s) + 2H2O(l) → H2(g) + 2NaOH(aq)
2K(s) + 2H2O(l) → H2(g) + 2KOH(aq)
Ca(s) + 2H2O(l) → H2(g) + Ca(OH)2(aq)
2. Metals that react with high temperature steam to produce hydrogen and a metal oxide.
2Al(s) + 3H2O(g) → 3H2(g) + Al2O3(aq)
Zn(s) + H2O(g) → H2(g) + ZnO(aq)
3Fe(s) + 4H2O(g) → H2(g) + 3FeO(aq)
reactivity
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3. Nonmetals that react with water.
Cl2(g) + H2O(l) → HCl(aq) + HOCl(aq)
2F2(g) + 2H2O(l) → 4HF(aq) + O2(g)
Br2(l) + H2O(l) → HBr(aq) + HOBr(aq)
C(s) + H2O(g) CO(g) + H2(g)1000oC
violent reaction
mild reaction
mild reaction
water gas forms
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1. Basic anhydrides are metal oxides that react with water to form hydroxides
Na2O(s) + H2O(l) → 2NaOH(aq)
CaO(s) + H2O(l) → Ca(OH)2(aq)
2. Insoluble metallic oxides do not react with water to form hydroxides.
Al2O3(s) + H2O(l) → no reaction
CuO(s) + H2O(l) → no reaction
Reactions of Water with Reactions of Water with Metal and Nonmetal OxidesMetal and Nonmetal Oxides
Reactions of Water with Reactions of Water with Metal and Nonmetal OxidesMetal and Nonmetal Oxides
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2. Acidic anhydrides are nonmetal oxides that react with water to form hydroxides
SO2(g) + H2O(l) → H2SO3(aq)
CO2(g) + H2O(l) → H2CO3(aq)
N2O5(g) + H2O(l) → 2HNO3(aq)
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Solids that contain water as part of their crystalline structure are known as hydrates.
HydratesHydrates
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Water in a hydrate is known as water of hydration or water of crystallization.
Solids that contain water as part of their crystalline structure are known as hydrates.
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Formulas of hydrates are written by first writing the formula for the anhydrous compound and then adding a dot followed by the number of water molecules present.
6H2OCoCl2
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• Water molecules in hydrates are bonded by electrostatic forces between polar water molecules and the positive or negative ions of the compound.
• These forces are weaker than covalent or ionic bonds.
• As a result water of crystallization can be removed by moderate heating of the compound.
BaCl2 2H2O(s)
100oC BaCl2(s) + 2H2O(g)
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13.1 What is a Liquid – Common properties
13.2 Evaporation – Kinetic Energy
13.3 Vapor Pressure – relative rates of evaporation and boiling points
13.10 Structure of the Water Molecule
13.11 The Hydrogen Bond
13.4 Surface Tension – Forces of; Meniscus
13.5 Boiling Point – Heating curves
13.9 Physical Properties of Water
13.12 Formation and Chemical Properties of Water
13.13 Hydrates
13.6 Freezing Point or Melting Point
13.7 Changes of State
13.8 Occurrence of Water