Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without...
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Transcript of Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without...
![Page 1: Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.](https://reader033.fdocuments.net/reader033/viewer/2022061305/55144f995503466d1a8b5eef/html5/thumbnails/1.jpg)
Chapter 16
Spontaneity, entropy and free energy
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SpontaneousA reaction that will occur without
outside intervention.We can’t determine how fast.We need both thermodynamics and
kinetics to describe a reaction completely.
Thermodynamics compares initial and final states.
Kinetics describes pathway between.
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Thermodynamics1st Law- the energy of the universe
is constant.Keeps track of thermodynamics
doesn’t correctly predict spontaneity.Entropy (S) is disorder or
randomness2nd Law the entropy of the universe
increases.
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EntropyDefined in terms of probability.Substances take the arrangement
that is most likely.The most likely is the most random.Calculate the number of
arrangements for a system.
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2 possible arrangements
50 % chance of finding the left empty
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4 possible arrangements
25% chance of finding the left empty
50 % chance of them being evenly dispersed
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4 possible arrangements
8% chance of finding the left empty
50 % chance of them being evenly dispersed
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GasesGases completely fill their chamber
because there are many more ways to do that than to leave half empty.
Ssolid <Sliquid <<Sgas there are many more ways for the
molecules to be arranged as a liquid than a solid.
Gases have a huge number of positions possible.
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EntropySolutions form because there are many
more possible arrangements of dissolved pieces than if they stay separate.
2nd LawSuniv = Ssys + Ssurr IfSuniv is positive the process is
spontaneous. IfSuniv is negative the process is
spontaneous in the opposite direction.
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For exothermic processes Ssurr is positive.
For endothermic processes Ssurr is negative.
Consider this processH2O(l)H2O(g)
Ssys is positive
Ssurr is negative
Suniv depends on temperature.
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Temperature and Spontaneity
Entropy changes in the surroundings are determined by the heat flow.
An exothermic process is favored because by giving up heat the entropy of the surroundings increases.
The size of Ssurr depends on temperature
Ssurr = -H/T
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SsysSsurr Suniv
Spontaneous?
+ + +
- --
+ - ?
+- ?
Yes
No, Reverse
At Low temp.
At High temp.
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Gibb's Free EnergyG=H-TSNever used this way.G=H-TS at constant temperatureDivide by -T -G/T = -H/T-S -G/T = Ssurr + S -G/T = Suniv If G is negative at constant T and
P, the Process is spontaneous.
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Let’s CheckFor the reaction H2O(s) H2O(l)Sº = 22.1 J/K mol Hº =6030 J/molCalculate G at 10ºC and -10ºCLook at the equation G=H-TSSpontaneity can be predicted from
the sign of H and S.
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G=H-TSHS Spontaneous?
+ - At all Temperatures
+ + At high temperatures,
“entropy driven”
- - At low temperatures,
“enthalpy driven”
+- Not at any temperature,
Reverse is spontaneous
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Third Law of ThermoThe entropy of a pure crystal at 0 K is 0.Gives us a starting point.All others must be>0.Standard Entropies Sº ( at 298 K and 1
atm) of substances are listed.Products - reactants to find Sº (a state
function).More complex molecules higher Sº.
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Free Energy in ReactionsGº = standard free energy change.Free energy change that will occur if
reactants in their standard state turn to products in their standard state.
Can’t be measured directly, can be calculated from other measurements.
Gº=Hº-TSºUse Hess’s Law with known reactions.
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Free Energy in ReactionsThere are tables of Gºf .Products-reactants because it is a state
function. The standard free energy of formation
for any element in its standard state is 0.
Remember- Spontaneity tells us nothing about rate.
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G=H-TSHS Spontaneous?
+ - At all Temperatures
+ + At high temperatures,
“entropy driven”
- - At low temperatures,
“enthalpy driven”
+- Not at any temperature,
Reverse is spontaneous
![Page 20: Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.](https://reader033.fdocuments.net/reader033/viewer/2022061305/55144f995503466d1a8b5eef/html5/thumbnails/20.jpg)
Third Law of ThermoThe entropy of a pure crystal at 0 K is 0.Gives us a starting point.All others must be>0.Standard Entropies Sº ( at 298 K and 1
atm) of substances are listed.Products - reactants to find Sº (a state
function)More complex molecules higher Sº.
![Page 21: Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.](https://reader033.fdocuments.net/reader033/viewer/2022061305/55144f995503466d1a8b5eef/html5/thumbnails/21.jpg)
Free Energy in ReactionsGº = standard free energy change.Free energy change that will occur if
reactants in their standard state turn to products in their standard state.
Can’t be measured directly, can be calculated from other measurements.
Gº=Hº-TSºUse Hess’s Law with known reactions.
![Page 22: Chapter 16 Spontaneity, entropy and free energy. Spontaneous l A reaction that will occur without outside intervention. l We cant determine how fast.](https://reader033.fdocuments.net/reader033/viewer/2022061305/55144f995503466d1a8b5eef/html5/thumbnails/22.jpg)
Free Energy in ReactionsThere are tables of Gºf Products-reactants because it is a state
function. The standard free energy of formation
for any element in its standard state is 0.
Remember- Spontaneity tells us nothing about rate.
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Free energy and PressureG = Gº +RTln(Q) where Q is the reaction
quotients (P of the products /P of the reactants).
CO(g) + 2H2(g) CH3OH(l) Would the reaction be spontaneous at
25ºC with the H2 pressure of 5.0 atm and the CO pressure of 3.0 atm?
Gºf CH3OH(l) = -166 kJ
Gºf CO(g) = -137 kJ Gºf H2(g) = 0 kJ
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How far?G tells us spontaneity at current
conditions. When will it stop? It will go to the lowest possible free
energy which may be an equilibrium.At equilibrium G = 0, Q = KGº = -RTlnK
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Gº K=0 =1
<0 >0
>0 <0
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Temperature dependence of K
Gº= -RTlnK = Hº - TSº ln(K) = Hº/R(1/T)+ Sº/RA straight line of lnK vs 1/T
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Free energy And WorkFree energy is that energy free to do
work.The maximum amount of work
possible at a given temperature and pressure.
Never really achieved because some of the free energy is changed to heat during a change, so it can’t be used to do work.