Que Sera, Sera - University Of Maryland · 2013-02-14 · 2/11/13 Physics 132 1 Theme Music: Doris...
Transcript of Que Sera, Sera - University Of Maryland · 2013-02-14 · 2/11/13 Physics 132 1 Theme Music: Doris...
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2/11/13 1 Physics 132
Theme Music: Doris Day Que Sera, Sera
Cartoon: Bill Watterson Calvin & Hobbes
February 13, 2013 Physics 132 Prof. E. F. Redish
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2/11/13 2 Physics 132
2.1.1 2.1.2 2.2 2.3
A 4% 13% 35% 0%
B 96% 4% 61% 0%
C 0% 83% 17% 17%
D 0% 0% 78% 4%
E 78%
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2/11/13 3 Physics 132
Foothold ideas: Exponents and logarithms
Power law: a variable raised to a fixed power.
Exponential: a fixed constant raised to a variable power.
Logarithm: the inverse of the exponential.
f (x) = x2 g(x) = Ax7
f (x) = ex g(N ) = 2N h(z) = 10z
x = eln(x )
y = 10log(y)
log(2) = 0.3010log(e) = 0.4343
2N = 100.3010( )N !100.3N
ex = 100.4343( )x !100.4 x2N = B
N log2 = logB" N = logBlog2
x = ln ex( )y = log 10y( )
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2/11/13 4 Physics 132
Foothold ideas: Entropy
Entropy – an extensive measure of how well energy is spread in a system.
Entropy measures – The number of microstates
in a given macrostate – The amount that the energy of a system is spread
among the various degrees of freedom
Change in entropy upon heat flow
S = kB ln(W )
!S = QT
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Foothold ideas: Transforming energy
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Internal energy: thermal plus chemical
Enthalpy: internal plus amount needed to make space at constant p
Gibbs free energy: enthalpy minus amount associated with raising entropy of the rest of the universe due to energy dumped
A process will go spontaneously if ΔG < 0.
!U
!H = !U + p!V
!G = !H "T!S
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ΔG = ΔH – TΔS
TΔSsystem -TΔSsurroundings -TΔStotal
The sign of the Gibbs Free Energy change indicates spontaneity!
Spontaneity…
ΔG < 0 à ΔStotal > 0 spontaneous
ΔG > 0 à ΔStotal < 0 not spontaneous
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Foothold ideas: Energy distribution
Due to the randomness of thermal collisions, even in (local) thermal equilibrium a range of energy is found in each degree of freedom.
The probability of finding an energy E is proportional to the Boltzmann factor
At 300 K, kBT ~ 1/40 eV
NAkBT = RT ~ 2.4 kJ/mol 2/11/13 8 Physics 132
P(E)! e"E kBT (for one DoF)
P(E)! e"ERT (for one mole)