Title: 20 B Week II Chapters 9 -10)
1- 20 B Week II Chapters 9 -10)
Macroscopic Pressure Microscopic pressure( the
kinetic theory of gases no potential
energy) Real Gases van der Waals Equation of
State London Dispersion Forces Lennard-Jones
V(R ) and physical bonds Chapter 10 3 Phases
of Matter Solid, Liquid and Gas of a single
component system( just one type of molecule, no
solutions) Phase Transitions A(s) ??A(g)
Sublimation/Deposition A(s) ??A(l)
Melting/Freezing A(l) ??A(g)
Evaporation/Condensation
2Example Volume occupied by a CO2 molecule in
the solid compared to volume associated with
CO2 in the gas phase. The solid. The mass
density(r) of solid CO2 (dry ice) r1.56 g cm-3
1 mole of CO2 molecular weight M44.01 g mol-1
occupies a molar volume V M/r V 44.01 g mol-1
/1.56 g cm-3 28.3 cm-3 mol-1 1 cm-3 10-3 L
mL Which is approximately the excluded volume per
mol-1 0.028.3 L mol-1 The Ideal Gas Volume at
T300 K and P1 atm PVNkTnRT V/nRT/P
(0.0821 L atm mol-1 K-1)(273 K)/(1 atm) 22.4 L
mol-1 The Real Volume of CO2(g) under these
conditions is 22.2 L mol-1 Why is the Real
molar volume smaller than the Ideal gas Volume?
3Gas
Liquid
Solid
?ltlt kT EKE
?gtgtkT EPE
4Real Gas behavior is more consistent with the
van der Waals Equation of State than PVnRT
PnRT/(V nb) a(n/V)2 nN/NA and
RNak n number of moles b NA???excluded
volume per mole (V-nb) repulsive effect a
represents the attraction between
atoms/molecules. The Equations of State can be
determined from theory or by experimentally
fitting P, V, T data! They are generally more
accurate than PVnRTNkT but they are not
universal
52e
2e
2
1 Å 0.1 nm Å is an Angstrom
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7The London Dispersion or Induced Dipole Induced
Dipole forces Weakest of the Physical Bonds but
it is always present!
8Which of these atoms have the strongest physical
bond? Which of the diatomic molecules have the
strongest physical bond? Why is CH4 on this list?
Bond dipoles
(kT/ ?? ratio predicts deviations from Idea gas
behavior. Since ltPEgt 0 for real gases If kTgtgt?
which forces are dominant? Repulsive forces
dominate and PgtNkT/V for real gases If kTltlt?
which forces are dominant Attractive forces
dominate and PltNkT/V for real gases
9Bond dipoles
(kT/ ?? ratio predicts deviations from Idea gas
behavior. Since ltPEgt 0 for real gases If kTgtgt?
which forces are dominant? Repulsive forces
dominate and PgtNkT/V for real gases If kTltlt?
which forces are dominant Attractive forces
dominate and PltNkT/V for real gases
10PE
PEKE
KE
11Gas
Liquid
Solid
Temperature
122e
2e
2
13Real Gases and Intermolecular Forces
Lennard-Jones Potential V(R ) 4?(R/?)12
-(R/?)6
kT gtgt ?
Total Energy EKE V(R) KE
Ar Ar /He He
? well depth is proportional Ze (or Mass) but
its the of electrons that control the well
depth
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15(kT/ ?? ratio controls deviations away from Idea
gas behavior. kTgtgt? repulsive forces dominate
and PgtNkT/V kTltlt? attrative forces dominate and
PltNkT/V
The effects of the intermolecular force, derived
the potential energy, is seen experimentally
through the Compressibility Factor
ZPV/NkT ZPV/NkTgt1 when repulsive forces
dominate ZPV/NkTlt1 when attractive forces
dominate ZPV/NkT1 when ltV(R )gt0 as for the
case of an Ideal Gas.
16Real Gas behavior is more consistent with the
van der Waals Equation of State than PVnRT
PnRT/(V nb) a(n/V)2 nN/NA and RNAk
b NA???excluded volume per mole (V-nb) repulsive
effect a represents the attraction between
atoms/molecules. The Equations of State can be
determined from theory or by experimentally
fitting P, V, T data! They are generally more
accurate than PVnRTNkT but they are not
universal
17(kT/ ?? ratio controls deviations away from Idea
gas behavior. kTgtgt? repulsive forces dominate
and PgtNkT/V kTltlt? attrative forces dominate and
PltNkT/V
The effects of the intermolecular force, via the
potential energy, is seen experimentally through
the Compressibility Factor ZPV/NkT ZPV/NkTgt1
when repulsive forces dominate ZPV/NkTlt1 when
attractive forces dominate ZPV/NkT1 when ltV(R
)gt0 as for the case of an Ideal Gas.
18Excluded Volume (V-nb)(V - nNA??? ?(V N
??? and Two Body Attraction a(n/V)2
19The Compressibility factor Z can be written in
terms of the van der Waals Equation of State
ZPV/nRT V/(V-nb) (a/RT)(n/V)2
Z V/(V-nb) (a/RT)(n/V)21/1-b(n/V)
(a/RT)(n/V)2
Repulsion Zgt1
Attraction Zlt1
When a and b are zero, Z 1 Since PVRT n1
20Electro-negativity of atoms
In a molecule the more Electronegative atom in a
bond will transfer electron density from the
less Electronegative atom This forms dipole
along a bond
Re
21Dipole-Dipole interaction ? partial on an atom Re
HCl bond length
Not the Real Dimer Structure
Real Dimer Structure
22Notice the difference between polar molecules
(dipole moment ??0) and non-polar molecules (no
net dipole moment ?0) CO2 and CH4
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24Dipole-Dipole
Hydrogen Bonding due lone pairs on the O and N
atoms
??e
???e
Dipole moment ??eRe
25The Potential Energy of Chemical Bonds Versus
Physical Bonds
Physical Bonds
Chemical Bonds
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