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Thermochemistry Chapter 5

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1 Thermochemistry Chapter 5
Copyright © The McGraw-Hill Companies, Inc.  Permission required for reproduction or display.

2 Energy is the capacity to do work
Thermal energy is the energy associated with the random motion of atoms and molecules Chemical energy is the energy stored within the bonds of chemical substances Nuclear energy is the energy stored within the collection of neutrons and protons in the atom Electrical energy is the energy associated with the flow of electrons Potential energy is the energy available by virtue of an object’s position 6.1

3 Energy Changes in Chemical Reactions
Heat is the transfer of thermal energy between two bodies that are at different temperatures. Temperature is a measure of the thermal energy. Temperature = Thermal Energy 400C 900C greater thermal energy 6.2

4 Thermochemistry is the study of heat change in chemical reactions.
The system is the specific part of the universe that is of interest in the study. SYSTEM open closed isolated Exchange: mass & energy energy nothing 6.2

5 The First Law of Thermodynamics
Energy is conserved. Internal Energy includes all kinetic and potential energy in a system. ΔE = Efinal - Einitial

6 Relating ΔE to Heat and Work
ΔE = q + w For q + means system gains heat - means system loses heat For w + means work don on the system - means work done by the system For ΔE + means net gain of energy by system - means net loss of energy by the system

7 2H2 (g) + O2 (g) 2H2O (l) + energy
Exothermic process is any process that gives off heat – transfers thermal energy from the system to the surroundings. 2H2 (g) + O2 (g) H2O (l) + energy H2O (g) H2O (l) + energy Endothermic process is any process in which heat has to be supplied to the system from the surroundings. energy + H2O (s) H2O (l) energy + 2HgO (s) Hg (l) + O2 (g) 6.2

8 Enthalpy Heat flow in a chemical reaction when no work is done. (constant pressure systems) ΔH = change in enthalpy

9 Calculation of Enthalpy (H)
Stoichiometrically: (Using known values and stoichiometry) When potassium hydroxide is added to water, the following reaction takes place KOH (s)  KOH (aq) ΔH=-43 kJ/mol When 14.0 g of KOH is added to water: Does the beaker get warmer or colder? Is the reaction endo or exothermic? What is the enthalpy change for the reacton? There are five ways to calculate enthalpy: Stoichiometrically From tables of standard values Hess’s Law Calorimetry Bond Energies

10

11 Properties of Enthalpy
The change in enthalpy equals the heat gained or lost at constant pressure The enthalpy change for a reverse reaction is equal to the forward reaction with the opposite sign If the reaction is multiplied; the value of ΔH is multiplied by the same number The enthalpy change for a reaction depends on the state of the reactants and products

12 Heat (q) absorbed or released:
The specific heat (s) of a substance is the amount of heat (q) required to raise the temperature of one gram of the substance by one degree Celsius. The heat capacity (C) of a substance is the amount of heat (q) required to raise the temperature of a given quantity (m) of the substance by one degree Celsius. C = ms Heat (q) absorbed or released: q = msDt q = CDt Dt = tfinal - tinitial 6.4

13 Dt = tfinal – tinitial = 50C – 940C = -890C
How much heat is given off when an 869 g iron bar cools from 940C to 50C? s of Fe = J/g • 0C Dt = tfinal – tinitial = 50C – 940C = -890C q = msDt = 869 g x J/g • 0C x –890C = -34,000 J 6.4

14 Constant-Pressure Calorimetry
qsys = qwater + qcal + qrxn qsys = 0 qrxn = - (qwater + qcal) qwater = msDt qcal = CcalDt Reaction at Constant P DH = qrxn No heat enters or leaves! 6.4

15 Bomb Calorimetry (Constant-Volume)
This device has a known heat capacity (Ccal) that is determined experimentally. qrxn = -Ccal x ΔT

16 Example A g sample of phenol (C6H5OH) was burned in a bomb calorimeter whose total heat capacity is J/oC. The temperature increased from to degrees celcius. Write a balanced equation for the reaction. What is the heat of combustion per gram of phenol? Per mole?

17 Answer

18 Hess’s Law The ΔH for a chemical reaction carried out in a series of steps can be determined by summing the ΔH for each step. Take the steps and rearrange them so that they will combine to give the overall equation for the reaction. (See example on the board)

19 Using Standard Enthalpies of Formation

20 Example


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