Thermochemistry
• 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.
• Heat is energy. If heat is released by a chemical system, an equal amount of heat will be absorbed by the surroundings
• (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.
• Heat is transferred due to a temperature difference. Faster molecules speed up the slower molecules. This slows the faster molecules.
• In an endothermic process, the system absorbs heat from the surroundings. A process that absorbs heat is a(n) endothermic process.
• In an exothermic process, the system gives off heat to the surroundings.
• 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.
• 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.
• As perspiration evaporates from your skin, your body is cooled.
• With respect to your body, this process is said to be exothermic.
• A calorie is the quantity of heat that raises the temperature of 1 gram of pure water by 1C.
• 1 Calorie = 4.18 kJ of heat
• How many kJ of energy can be released by a banana containing 150 Cal?
(1 Calorie = 4.18 kJ)
kJCal
kJCal 630
1
18.4150
• An object's heat capacity is the amount of heat required to change the temperature of an object by exactly 1°C.
• 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 25°C to 50°C when it absorbed 500. J of heat. What is the specific heat of this sample?
• c = ?
• m = 10. g T = 50°C-25°C = 25°C
• Q = 500. J Tm
Qc
Cg
J
Cg
J
Tm
Qc
0.2
25.10
.500
• Determine the specific heat of a material if an 18 g sample absorbed 75 J as it was heated from 15°C to 40.°C.
• c = ?
• m = 18 g T = 40.°C-15°C = 25°C
• Q = 75 J
Cg
J
Cg
J
Tm
Qc
17.0
2518
75
• 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
Cg
cal
Cg
cal
Tm
Qc
33.0
.20.300
.2000
• 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/gC)
• Q = ? • m = 200. g • c = 0.21 cal/gC T = 10.C
• Q = mcT
• Q = (200. g)(0.21 cal/gC)( 10.C) = 420 cal
• Water has the highest specific heat of all common substances.
C°g
cal00.1=c
• 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.
• 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 24.0°C and the final temperature of the mixture is 33.0°C, how much heat (in kJ) is released in the reaction? Assume that the densities of the solutions are 1.00 g/mL.
H = ?
• m = 27.0 g + 28.0 g = 55.0 g T = 33.0°C - 24.0°C = 9.0°C
• c = 0.00418 kJ/g°C
kJ1.2C0.9Cg
kJ00418.0g0.55TmcH
• A lead mass is heated and placed in a foam cup calorimeter containing 40.0 mL of water at 17.0°C. The water reaches a temperature of 20.0°C. How many joules of heat were released by the lead?
H = ?
• m = 40.0 g T = 20.0°C - 17.0°C = 3.0°C• c = 4.18 J/g°C
J502C0.3Cg
J18.4g0.40TmcH
• 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
• 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
• Given the equation
I2(s) + 62.4 kJ I2(g) H = +62.4 kJ
• How much heat, in kJ, is released when 108 g of water at O°C freezes to ice at O°C if Hsolid
for water = -6.01 kJ/mol?
kJ1.36OHmol1
kJ01.6
OHg18
OHmol1g108
22
2
• 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?
kJ0.61OHmol1
kJ7.40
OHg18
OHmol1g0.27
22
2
• How many grams of ice at 0°C can be melted into water at 0°C by the addition of 75.0 kJ of heat?
Hfus for water = 6.01 kJ/mol
g225kJ01.6
OHmol1
OHmol1
OHg18kJ0.75 2
2
2
• 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?
kJ2.890NaOHmol1
kJ1.445
NaOHg.40
NaOHmol1NaOHg00.80
• Hess's law makes it possible to calculate H for complicated chemical reactions.
• Hess’s 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.
• Given the equation: • C2H4 (g) + 3O2(g) + 2H2O(l) + 1411 kJ
• How much heat is released when 8.00 g of O2 react?
kJ118NaOHmol3
kJ1411
Og.32
Omol1Og00.8
2
22
• 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.
• Standard heats of formation:
• C6H6 = +48.50 kJ
• O2 = 0.0 kJ
• CO2 = -393.5 kJ
• H20 = -285.8 kJ
• 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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