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Thermodynamics

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Title: Thermodynamics


1
Thermodynamics
  • Chapter 19 Brown-LeMay

2
I. Review of Concepts
  • Thermodynamics area dealing with energy and
    relationships
  • First Law of Thermo law of conservation of
    energy - U q w
  • the change in internal energy of a system
    equals q w
  • Internal energy is a state function one that is
    independent of the pathway (altitude- state
    function, miles traveled is not a state function

3
Concept review
  • Heat (q) is the energy that moves into or out of
    a system because of temperature differences
    between the system and the surroundings
  • Work (w) energy exchange that results when a
    force (f) moves an object through a distance (d)
    w f x d
  • Work done to the system is positive work done by
    the system is negative

4
Concept review
  • Work in a chemical system can de described by the
    pressure and change in volume of a system
  • W -p v
  • u qp w cons. pressure
  • u qp p v
  • H is the reaction q at constant pressure
  • H qp

5
Delta H
  • More precisely H is the quantity u pv
  • H u pv
  • H u pv
  • H qp pv pv
  • H qp
  • All U,P,V are state functions so H is also a
    state function
  • H n H0f(products) - n H0f
    (reactants)



6
II. Entropy and the Second Law
  • Spontaneous reactions are a physical or
    chemical change that occurs by themselves
  • When delta H is neg exothermic the reaction
    tend to be spontaneous
  • Spontaneous reactions are non-reversible
  • When delta H is positive endothermic the
    reaction may or may not be spontaneous

7
II. Entropy and the Second Law
  • Endothermic reactions are/not spontaneous because
    of the naturally tendency to ether move towards
    or away from a random state
  • Entropy S or S- is a measure of randomness or
    disorder of a system (J/K)
  • state function (influenced by temp and
    pressure)


8
The Second Law
  • The entropy of a system and its surrounds always
    increases in a spontaneous process
  • s s (final) s (initial)
  • s increase in disorder
  • s- decrease in disorder
  • different from energy because it can be created





9
Second Law
  • Delta S entropy created q/T
  • Delta S gt q/T spontaneous
  • Delta S q/T equilibrium
  • For a process to be spontaneous at a given
    temperature, the change in entropy of the system
    is greater than the heat of they system divided
    by the absolute temperature

10
Second Law (spontaneous rxn)
  • Delta s gt qp/T Delta H/T
  • Delta H/T Delta S lt 0
  • H T S lt0 spontaneous
  • H T S gt0 non-spontaneous
  • H T S 0 Equilibrium
  • You can often look up Delta H and Delta S
    values form tables and determine if a reaction is
    spontaneous as written under certain conditions

11
The Third Law Predicting Entropy Change
  • Third Law a substance that is perfectly
    crystalline at 0 Kelvin has an entropy of zero
    as the temp of a substance is raised disorder
    increases as it absorbs heat

12
Changes in Entropy
  • In general Entropy increases as
  • Liquids or solutions are formed from solids
  • Gases are formed from either solids or liquids
  • The number of molecules of gas increases
    during a chemical reaction
  • the temperature of a substance in increased.

13
  • Ludwig Boltzmann developed a method to
    calculate entropies of substances based on the
    number of possible arrangements of the particles
    of a system
  • Standard Entropy So the entropy value for the
    standard state of the species (indicated by the
    subscript sign)
  • Gas pure sub at 1 atm tempt 250C or 298 k
    Solutions are one molar.
  • Calc So Sum n So products - Sum n So reactants

14
Free Energy and Spontaneity
  • The Gibbs free energy of a substance combines its
    enthalpy and entropy into a single quantity that
    describes the total amount of energy available
    for use.
  • G H TS
  • At const temp G H T S
  • If G is neg(-) the rxn is spontaneous
  • If G is pos() the rxn non-spontaneous
  • If G is zero the rxn is at equilibrium

15
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