thermal chemistry. v.b.3 a.explain the law of conservation of energy in chemical reactions...
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ThermalChemistry
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V.B.3a. Explain the law of conservation
of energy in chemical reactions
b. Describe the concept of heat and explain the difference between heat energy and temperature
c. Explain physical and chemical changes and endothermic or exothermic energy changes
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Energy
Def: the ability to do work
Classified as either:
Potential Energy
Kinetic Energy
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1st Law of Thermodynamics
• The energy of the universe is constant
• Energy can neither be created or destroyed
• Can be converted from one form to another
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Energy
• Energy is a state function
• Property of the system that changes independently of the pathway
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Temperature & Heat
Temperature is a measure of the motion of the particles of a substance
Heat is the flow of energy due to a temperature difference
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System & Surroundings
gsSurroundinSystem
gsSurroundinSystemenergy
energy
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Internal EnergyAlways from the viewpoint of the
system
ΔE = q + w
q = heat
w = work
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Special Conditions
• If the container is rigid and cannot expand, then no work is done by or on the system
• All energy must be in the form of heat (q) and therefore
ΔE = q
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V.B.3.
d. Solve heat capacity and heat transfer problems involving specific heat, heat of fusion, and vaporization
e. Calculate the heat of reaction for a given chemical reaction when given calorimetric data
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Measuring Energy
calorie (c) – the amount of energy needed to raise the temperature of 1g of water by 1oC
Joule (J) – 4.184 J = 1 calorie
(SI unit)
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Heating Depends On..
1. The amount of substance being heated (in grams)
2. The temperature change
3. Specific heat capacity – the amount of energy needed to raise the temperature of one gram of a substance by 1oC
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Calculating Energy Change
q = m c ΔT
q = heat
m = mass in grams
c = specific heat capacity
ΔT = change in temperature
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V.B.4.
a. Define enthalpy and explain how changes in enthalpy determine whether a reaction is endothermic or exothermic
b. Compute ΔHrxn from ΔHfo and
explain why the ΔHfo values for
elements are zero
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ENTHALPY
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What is Enthalpy?
Consider a process at constant pressure where the only work is PV work (w = -PΔV)
ΔE = qp + w
ΔE = qp – PΔV
qp = ΔE + PΔV
H = E + PV or ΔH = ΔE + Δ(PV)ΔH = ΔE + PΔV (pressure is
constant)ΔH = qp
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In Other Words…
the terms heat of reaction and change in enthalpy are the same so
ΔH = Hproducts - Hreactants
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• Endothermic – absorbs heat during reaction (feels cold)
• Exothermic – gives off heat during reaction (feels hot)
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Calculate the Standard Enthalpy Change for the combustion of Methane
CH4(g) + 2O2(g) CO2(g) + 2H2O(l)
1. CH4(g) C(s) + 2H2(g)
2H2(g) + C(s) CH4(g) -75 kJ
• O2(g) 0 kJ
• C(s) + O2(g) CO2(g) -394 kJ
• H2(g) + ½ O2(g) H2O(l) -286 kJ
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Example
• When 1 mole of CH4 is burned at constant pressure, 890 kJ of energy is released as heat. Calculate ΔH for a process in which 5.8 g of CH4 is burned at constant pressure.
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Calorimetry
Calorimeter – used to determine the heat energy change during a reaction
Carried out under constant pressure measures enthalpy (ΔH)
Carried out under constant volume measures energy (ΔE)
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Example
A 110. g sample of copper (specific heat capacity = 0.20 J/Co∙g) is heated to 82.4oC and then placed in a container of water at 22.3oC. The final temperature of the water and the copper is 24.9oC. What was the mass of the water in the original container, assuming complete transfer of heat from the copper to the water?
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Heat lost by copper =
-(heat lost by copper) = (heat gained by water)
J 1265 C)24.9 - C(82.4 Cg
J 0.20Cu g 110. oo
o
waterg 120
CgC2.6J 4.184
J 1265
Ts
q water of mass
o
o
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Heating Curve
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Heat of Fusion
ΔHfus = enthalpy change that occurs in melting a solid at its melting point
Example: What quantity of heat is needed to melt 1.0 kg of ice at its melting point?
ΔHfus =6.0 kJ/mol
kJ 333 mol 1
kJ 6.0
g 18.0
mol 1
kg 1
1000gkg 00.1
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Heat of Vaporization
ΔHvap = the energy needed to vaporize one mole of a liquid at a pressure of 1 atm
Example: What quantity of heat is required to vaporize 130. g of water?
kJ 317 mol 1
kJ 43.9
g 18.0
mol 1 g .130
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Example
Substance X has the following properties:
ΔHvap = 20. kJ/mol
ΔHfus = 5.0 kJ/molBoiling point = 75oCMelting point = -15oCSpecific heatSolid = 3.0 J/goCLiquid = 2.5 J/goCGas = 1.0 J/goC
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Calculate the energy required to convert 250. g of substance X from a solid at -50oC to a gas at 100oC. Assume that X has a molar mass of 75.00 g/mol.
5 Step Process
1. Heating solid
2. Melting solid
3. Heating liquid
4. Boiling liquid
5. Heating gas
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Solution1. q = m x c x ΔT
= 250.g x (3.0 J/goC) x 35oC = 26 kJ
2. mol x ΔHfus = 3.33 mol x 5.0 kJ/mol = 17 kJ
3. q = m x c x ΔT= 250.g x (2.5 J/goC) x 90oC = 56 kJ
mol x ΔHvap = 3.33 mol x 20. kJ/mol =67 kJ
q = m x c x ΔT= 250.g x (1.0 J/goC) x 25oC = 6.2 kJ
172 kJ
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Heat of Formation
• ΔHfo
• The change in enthalpy of the formation of one mole of a compound from it elements in their standard states
• ΔHf° 25oC at 1 atm and 1 M
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ΔHfo = 0
By definition, the standard heat of formation for elements in their standard states equals zero.
Example: Which of the following will have standard heats of formation equal to zero?
H2(g), Hg(s), CO2(g), H2O(l), Br2(l)
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Example
Write the balanced molecular equation representing the ΔHf° for ethanol.
Answer:
2C(s) + 3H2(g) + ½ O2 C2H5OH
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Hess’s Law
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Based on…
1. State function
2. Enthalpy change is same for a reaction whether the reaction takes place in one or many steps
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How to use Hess’s Law
• Manipulate equations to reach the desired reaction
• If the reaction given is reversed, so is ΔH
• If multiplying the equation to balance the coefficients also multiply ΔH by the same number
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Example
• Calculate the enthapy for the following reaction:
N2(g) + 2O2(g) 2NO2(g) ΔH° = ??? kJ
N2(g) + O2(g) 2NO(g) ΔH° = +180 kJ
2NO2(g) 2NO(g) + O2(g) ΔH° = +112 kJ
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For any reaction…
ΔH°reaction = Σ nΔH°f(products) - Σ mΔH°f(reactants)
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Calculate the Standard Enthalpy Change for the Combustion of Methane
1. 2H2(g) + C(s) CH4(g) -75 kJ
2. O2(g) 0 kJ
o C(s) + O2(g) CO2(g) -394 kJ
o H2(g) + ½ O2(g) H2O(l) -286 kJ
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