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Thermochemistry

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Thermochemistry How much heat is released in the condensation of 27.0 g of steam at 100 C to water at 100 C if Hcond for water = -40.7 kJ/mol? – PowerPoint PPT presentation

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Title: Thermochemistry


1
Thermochemistry
2
  • When energy is changed from one form to another,
    all of the energy can be accounted for. This is
    called the Law of Conservation of Energy.

3
  • Heat is energy. If heat is released by a chemical
    system, an equal amount of heat will be absorbed
    by the surroundings

4
  • (For example) - When your body breaks down sugar
    completely, the body releases the same amount of
    heat as compared to burning the same amount of
    sugar in a flame.

5
  • Heat is transferred due to a temperature
    difference. Faster molecules speed up the slower
    molecules. This slows the faster molecules.

6
  • In an endothermic process, the system absorbs
    heat from the surroundings. A process that
    absorbs heat is a(n) endothermic process.

7
  • In an exothermic process, the system gives off
    heat to the surroundings.

8
  • If you were to touch the flask in which an
    endothermic reaction was occurring, the flask
    would probably feel warmer than before the
    reaction started.

9
  • In an exothermic reaction, the energy stored in
    the chemical bonds of the reactants is greater
    than the energy stored in the bonds of the
    products.

10
  • As perspiration evaporates from your skin, your
    body is cooled.
  • With respect to your body, this process is said
    to be exothermic.

11
  • A calorie is the quantity of heat that raises the
    temperature of 1 gram of pure water by 1?C.
  • 1 Calorie 4.18 kJ of heat

12
  • How many kJ of energy can be released by a banana
    containing 150 Cal?
  • (1 Calorie 4.18 kJ)

13
  • An object's heat capacity is the amount of heat
    required to change the temperature of an object
    by exactly 1C.

14
  • The specific heat capacity or specific heat is
    the heat divided by the mass and temperature
    change.
  • Where c specific heat Q heat m mass and
    ?T change of temperature
  • The temperature of a 10. g sample of metal
    changed from 25C to 50C when it absorbed 500. J
    of heat. What is the specific heat of this
    sample?
  • c ?
  • m 10. g
  • ?T 50C-25C 25C
  • Q 500. J

15
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16
  • Determine the specific heat of a material if an
    18 g sample absorbed 75 J as it was heated
    from 15C to 40.C.
  • c ?
  • m 18 g
  • ?T 40.C-15C 25C
  • Q 75 J

17
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18
  • What is the specific heat of a substance if 2000.
    cal are required to raise the temperature of a
    300. g sample by 20.C?
  • c ?
  • Q 2000. cal
  • m 300. g
  • ?T 20.C

19
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20
  • What is the amount of heat required to raise the
    temperature of 200.0 g of aluminum by 10.C?
  • (specific heat of aluminum 0.21 cal/g?C)
  • Q ?
  • m 200. g
  • c 0.21 cal/g?C
  • ?T 10.C

21
  • Q mc?T
  • Q (200. g)(0.21 cal/g?C)( 10.C) 420 cal

22
  • Water has the highest specific heat of all common
    substances.

23
  • The symbol ?H stands for the heat of reaction for
    a chemical reaction.
  • This is also called the change in enthalpy. ?H
    Q
  • The heat content of a system is equal to the
    enthalpy only for a system that is at constant
    pressure.
  • Calorimetry depends on the law of conservation of
    energy.

24
  • If 27.0 mL of water containing HCl is mixed with
    28.0 mL of water containing NaOH in a calorimeter
    such that the initial temperature of each
    solution was 24.0C and the final temperature of
    the mixture is 33.0C, how much heat (in kJ) is
    released in the reaction? Assume that the
    densities of the solutions are 1.00 g/mL.

25
  • ?H ?
  • m 27.0 g 28.0 g 55.0 g
  • ?T 33.0C - 24.0C 9.0C
  • c 0.00418 kJ/gC

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27
  • A lead mass is heated and placed in a foam cup
    calorimeter containing 40.0 mL of water at
    17.0C. The water reaches a temperature of
    20.0C. How many joules of heat were released by
    the lead?

28
  • ?H ?
  • m 40.0 g
  • ?T 20.0C - 17.0C 3.0C
  • c 4.18 J/gC

29
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30
  • Fusion solid ? liquid
  • Solidification liquid ? solid
  • Molar heat of fusion
  • heat required to melt a mole ?Hfusion
  • Molar heat of solidification
  • heat required to freeze a mole ?Hsolid
  • ?Hfusion -?Hsolid

31
  • Vaporization is liquid ? vapor
  • Condensation is vapor ? liquid
  • Molar heat of vaporization
  • heat required to vaporize a mole ?Hvap
  • Molar heat of condensation
  • heat required to condense a mole ?Hcond
  • ?Hvap -?Hcond

32
  • Given the equation
  • I2(s) 62.4 kJ ? I2(g) ?H 62.4 kJ

33
  • How much heat, in kJ, is released when 108 g of
    water at OC freezes to ice at OC if ?Hsolid
  • for water -6.01 kJ/mol?

34
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35
  • How much heat is released in the condensation of
    27.0 g of steam at 100C to water at 100C if
  • ?Hcond for water -40.7 kJ/mol?

36
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37
  • How many grams of ice at 0C can be melted into
    water at 0C by the addition of 75.0 kJ of heat?
  • ?Hfus for water 6.01 kJ/mol

38
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39
  • The heat of solution is the amount of heat
    absorbed or released when a solid dissolves.
  • If the molar heat of solution of NaOH is -445.1
    kJ/mol, how much heat (in kJ) will be released if
    80.00 g of NaOH are dissolved in water?

40
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41
  • Hess's law makes it possible to calculate H for
    complicated chemical reactions.
  • Hesss Law If you add 2 or more thermochemical
    equations to give a final equation, then you also
    ADD the heats of reactions to give the final heat
    of reaction.

42
  • Given the equation
  • C2H4 (g) 3O2(g) 2H2O(l) 1411 kJ
  • How much heat is released when 8.00 g of O2 react?

43
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44
  • What is the heat of reaction (?H) for the
    combustion (with O2) of benzene, C6H6 to form
    carbon dioxide and water? Write the balanced
    equation for the reaction.

45
  • Standard heats of formation
  • C6H6 48.50 kJ
  • O2 0.0 kJ
  • CO2 -393.5 kJ
  • H20 -285.8 kJ

46
  • 2 C6H6 15 O2 ? 12 CO2 6 H2O
  • ?H (2) (48.50 kJ) (15)(0.0 kJ)
  • (12) (-393.5 kJ) (6) (-285.8 kJ)
  • ?H -3266.9 kJ
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