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Vapor Pressure and Changes of State

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Vapor Pressure and Changes of State Phase Diagrams Shows which state can exist as given temp and pressure conditions of CLOSED system Experiment 1 Pressure is 1 atm ... – PowerPoint PPT presentation

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Title: Vapor Pressure and Changes of State


1
Vapor Pressure and Changes of State
2
Heat of vaporization
  • Enthalpy of vaporization
  • energy required to vaporize 1 mole of a liquid at
    a pressure of 1 atm ?Hvap

3
Vapor pressure-in closed container
  • Vapor molecules reform to a liquid
  • condensation
  • eventually rate of condensation rate of
    evaporation

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5
equilibrium
  • When no further net change occurs in the amt of
    liquid or vapor b/c the two opposite processes
    exactly balance each other

6
No net change?
  • System is highly dynamic on the molecular level!
  • Means molecules are constantly escaping and
    entering the liquid

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8
Vapor pressure
  • Determined by intermolecular forces
  • large IM forces low vp
  • the molecules need a lot of energy to escape

9
High vapor pressure
  • Evaporate readily from an open dish
  • volitile

10
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11
Temperature?
  • Vapor pressure for a given liquid increases
    significantly with temperature
  • why?

12
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13
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14
graphs
  • vp verses temperature
  • nonlinear increase
  • straight line by plotting ln(Pvap) versus 1/T (in
    K)

15
Straight line
  • ln(Pvap) -?Hvap/R (1/T) C
  • ?Hvap enthalpy of vap
  • R universal gas const
  • C const for each liquid

16
Impt relationship
  • Can find ?Hvap by measuring Pvap at several temps
    and evaluating slope

17
Two temps
  • Can combine the eqn b/c C does not dept on temp
    in order to solve for Pvap at another temp

18
Equation
  • Ln(PvapT1) - ln(PvapT2) ?Hvap/R (1/T2 - 1/T1)
  • OR
  • Ln(PT1/PT2) ?Hvap/R (1/T2 - 1/T1)

19
Solve
  • The vp of water at 25oC is 23.8 torr and the
    ?Hvap at 25oC is 43.9 kJ/mol. What is the vp at
    50. oC?

20
Changes of State
21
Changes of state
  • What happens when a solid is heated?
  • Heat solid --gt melt to liquid --gt liquid will
    boil to gas state

22
Heating curve
  • Plot of time vs temp for a process where energy
    is added at a constant rate

23
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24
Energy into ice
  • Random vibrations of water molecules increase
  • break from lattice and change to liquid

25
Enthalpy of fusion
  • energy added to break (or disrupt) the ice
    structure by breaking H-bonds
  • enthalpy change that occurs to melt a solid at
    the melting point (kJ/mol)

26
0oC
  • Temp is constant until all solid changes to
    liquid
  • then temp will increase again

27
100oC
  • Temp is constant until all the liquid changes to
    a gas
  • physical changes

28
Melting point
  • As the temp of the solid is increased, a point is
    eventually reached where the liquid and solid
    have identical vapor pressures

29
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30
Normal melting pt
  • The temp at which the solid and liquid states
    have the same vp under the conditions where the
    total pressure is 1 atm

31
Normal boiling pt
  • Temperature at which the vp of the liquid is
    exactly 1 atm
  • boiling occurs when the vp of the liq is equal to
    the pressure of its environment

32
PHASE DIAGRAMS
33
Phase Diagrams
  • Represent the phases of a substance as a function
    of temperature and pressure

34
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35
Phase Diagrams
  • Shows which state can exist as given temp and
    pressure
  • conditions of CLOSED system

36
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37
Experiment 1
  • Pressure is 1 atm
  • initial- temp -20oC
  • no vapor in cylinder (b/c at 0oC the vp is less
    than 1atm)

38
  • Ice melts to liquid (still no vapor)
  • at 100oC, vp is 1 atm and water boils
  • changes until all steam

39
Experiment 2
  • Pressure is 2.0 torr
  • ice is only component (-20oC, 2 torr)
  • at -10oC, ice --gt vapor
  • sublimation (vp of ice external pressure)

40
Experiment 3
  • Pressure is 4.588 torr
  • -20oC (ice only component)
  • cylinder heated- no new phase until .0098oC

41
  • TRIPLE point- solid and liquid have identical vp
    at 4.588 torr
  • only at these conditions (.01oC) can all three
    states of water coexist

42
Experiment 4
  • Pressure is 225 atm
  • start with liquid water (300oC, 225 atm) b/c of
    high pressure

43
  • Liquid changes to vapor as temp increases, but
    goes through intermediate fluid region which is
    neither true vapor or liquid

44
Critical temp
  • temp above which vapor cannot be liquified no
    matter what pressure is applied

45
Critical Pressure
  • Pressure required to produce liquification at the
    critical temp

46
Critical point
  • Defined by critical pressure and temp (374oC, 218
    atm)
  • beyond this point is intermediate fluid region

47
Phase diagram for water
  • Solid/liquid line has negative slope
  • mp of water decreases as external pressure
    increases

48
Phase diagram for water
  • Opposite of most substance b/c density of ice
    less than water at mp

49
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50
Phase diagram for CO2
  • Solid/liquid line has positive slope
  • solid CO2 is more dense than liquid CO2

51
Phase diagram for CO2
  • Triple point at 5.1 atm and -56.6oC
  • Critical point at 72.8 atm and 31oC
  • at 1 atm CO2 sublimes

52
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