bromine liquid vapor equilibrium vapor pressure temperature ... · department of chemistry &...
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Department of Chemistry & Biochemistry University of Oregon Eugene, Oregon 97403 USA
Bromine liquid vapor equilibrium vapor pressure
temperature intermolecular forces
Presentation
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Closed system vs Open system
In an open system the molecules will continue to evaporate until all have vaporized.
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Evaporation: liquid -> gas
An open system
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Minimum escape kinetic energy
Average kinetic energy
All substances at the same temperature have the same average kinetic energy. However, there is always a distribution of
velocities, leading to a distribution of kinetic energies.
A certain fraction of molecules in the liquid phase have
enough energy to escape into the gas phase.
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Evaporation Big Concept: molecules in a liquid state must have sufficient kinetic energy to overcome the intermolecular forces of attraction operating among the liquid molecules. Strong IMFs between molecules => Force of attraction is Strong
Gas phase
Liquid phase
H2O
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But, we also know that at the same temperature, different substances evaporate at different rates.
Why is that?
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Same average kinetic energy.
“Minimum escape energy” is different.
What is different about these 2 curves?
Substance A
Substance B
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What are the IMFs in water and gasoline (C8H18)?
hydrogen bonding London dispersion forces
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Evaporation, Vapor Pressure & IMFs
Vaporization (evaporation) will occur if molecules in the liquid phase possess enough kinetic energy to overcome the intermolecular forces of attraction holding the molecules together.
Since the strength of total IMFs vary with different molecules:
1. the rate of vaporization will be different for different substances at the same temperature.
2. the vapor pressure of the gases of different substances, at the same temperature, will vary.
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A closed system
Gas pressure builds up (increases) inside the closed container due to an increase in gas particles striking the walls of the container.
Vapor pressure
Time = 0.0 second Time = 240.0 seconds
Initial: place liquid in a flask and put a stopper in the top.
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Figure 12.5
The vapor pressure is the pressure exerted by the vapor on the liquid. The pressure increases until equilibrium is reached; at equilibrium the pressure is constant.
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Particulate representation of equilibrium between gas and liquid. Note that the rate of evaporation of the molecules in the liquid is equal to the rate of condensation of the gas.
Animation of the Dynamic Equilibrium of a hypothetical substance “R”. What two processes are occurring? Write the equilibrium equation.
R(l) R(g)
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Minimum escape kinetic energy
Average kinetic energy
All substances at the same temperature have the same average kinetic energy. However, there is a distribution of velocities,
leading to a distribution of kinetic energies.
A certain fraction of molecules in the liquid phase have
enough energy to escape into the gas phase.
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In an open system, the Br2 molecules in the liquid phase have a fast rate of evaporation. Why?
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Consider bromine, Br2, at room temperature.
A significant number of Br2 molecules in the liquid phase have enough kinetic energy to overcome the intermolecular
forces (potential energy) and enter the gas phase.
Minimum escape kinetic
energy
Average KE
A certain fraction has
enough energy to escape into the gas phase.
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Boiling Point and Vapor Pressure
• The boiling point of a liquid is the temperature at which its vapor pressure equals atmospheric pressure.
• The normal boiling point is the temperature at which its vapor pressure is 760 torr.
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Count the molecules in the gas phase
Count the molecules in the liquid phase
Br2(l) Br2(g)
Dynamic Equilibrium, Br2
Write the equilibrium equation
University of Oregon
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Br2
Br2, liquid phase
Br2, vapor phase
Br2(liquid) Br2(gas) A particulate model of the dynamic equilibrium of bromine
A computer animation https://youtu.be/092HBcCq5P8
University of Oregon
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Br2
Br2, liquid phase
Br2, vapor phase
Br2(liquid) Br2(gas) The rate of the forward process equals the rate of the reverse process. The processes continue, they do not stop.
A computer animation https://youtu.be/092HBcCq5P8
University of Oregon
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Figure 12.5
In a closed flask, the system reaches a state of dynamic equilibrium, where molecules are leaving and entering the liquid at the same rate.
Once equilibrium is reached, no changes will be observed, though the process is still occurring on a molecular level.
Br2(l) D Br2(g)
Liquid-gas equilibrium and vapor pressure
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The liquid and vapor reach a state of dynamic equilibrium: liquid phase molecules evaporate and vapor phase molecules condense at the same rate.
Rate of the forward process equals the rate of the reverse process. The number of particles in the liquid and gas state do not change.
Br2(l) Br2(g)
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Intermolecular Forces: Your job is to be able to predict the forces and understand how they relate to physical properties such as boiling and freezing points.
The stronger the attractions between the atoms or molecules, the more energy is required to separate the molecules the larger the heat of vaporization and
the higher the boiling point.
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Physical Properties of Bromine (Br2)
melting point -7.2°C (19°F) boiling point 58.8°C (137.8°F) vapor pressure at 25°C
0.30 atm (228 mm Hg)
∆Hvaporization 29.96 kJ/mole Br2
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Intermolecular Forces: Your job is to be able to predict the forces and understand how they relate to physical properties such as vapor pressure.
The stronger the attractions between the atoms or molecules, the more energy is required to separate the molecules
the lower the vapor pressure. Molecules in the liquid phase having strong IMFs hold unto their neighboring molecules strongly thus only a few get into the vapor phase.
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Br-Br
Br-Br
Br2(l) δ+ δ-
δ+ δ- Br-Br δ+ δ-
London Dispersion IMF
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Comparison of Vapor Pressures and IMFs of Other Substances to Bromine (Br2)
Substance Vapor Pressure at 25°C
Primary Intermolecular Force Between Molecules
Propane (CH3CH2CH3)
8.45 atm London Dispersion
Bromine (Br2) 0.30 atm London Dispersion Ethanol (CH3CH2OH)
0.08 atm Hydrogen-Bonding
Water (H2O) 0.03 atm Hydrogen-Bonding
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Intermolecular Forces are forces of attraction between a molecules, each molecule has a net dipole moment.
The IMFs between water molecules are stronger compared to the IMFs between Br2 molecules
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Comparison of Vapor Pressures and IMFs of Other Substances to Bromine (Br2)
Substance Vapor Pressure at 25°C
Primary Intermolecular Force Between Molecules
Propane (CH3CH2CH3)
8.45 atm London Dispersion
Bromine (Br2) 0.30 atm London Dispersion Ethanol (CH3CH2OH)
0.08 atm Hydrogen-Bonding
Water (H2O) 0.03 atm Hydrogen-Bonding
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Two liquids, same temperature, in closed containers. Which container has the higher vapor pressure?
Liquid A Liquid B
Temperature = 25°C
A. B.
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Concept: In a closed container More gas phase molecules = More pressure
The vapor pressure above liquid B is higher compared to the vapor pressure above liquid A.
Temperature = 25°C
A. B.
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Evaporation (or vaporization)
Evaporation of a liquid will occur if molecules possess enough kinetic energy to overcome intermolecular forces. 1. KE increases with temperature, so rate of
evaporation increases with temperature. 2. IMFs vary with molecule structure so the rate of
vaporization will be different for different substances at the same temperature.
Kinetic energy needed to break free of the liquid
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Vapor Pressure of a gas over its liquid
• At a low temperature some molecules in a liquid have enough energy to break free and enter the gas phase.
• As the temperature rises, the fraction of molecules that have enough kinetic energy to break free increases.
Low temperature Medium temperature
Gas phase
Liquid phase
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0
100
200
300
400
500
600
700
800
900
0 10 20 30 40 50 60 70
Pres
sure
(mm
Hg)
Temperature (°C)
Bromine (Br2) Vapor Pressure vs Temperature
Series1
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Vapor Pressure
• At any temperature some molecules in a liquid have enough energy to break free and enter the gas phase.
• As the temperature rises, the fraction of molecules that have enough energy to break free increases.
Kinetic energy needed to break free of the liquid
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The effect of temperature on the distribution of molecular speeds:
As temperature increases, the rate of vaporization increases.
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Same substance at different two different temperatures More gas phase molecules = More pressure
The vapor pressure above liquid in container B is higher compared to the vapor pressure above the liquid in container A.
Temperature = 25°C Temperature = 85°C
A. B.
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To Summarize
Vaporization (evaporation) will occur if molecules in the liquid phase possess enough KE to overcome intermolecular forces.
1. KE increases with temperature, more molecules have enough energy to escape the liquid, the vapor pressure increases with temperature.
2. IMFs vary with molecules, vapor pressure will be different for different substances at the same temperature.
3. The stronger the IMF, the lower the vapor pressure.
Closed system