Title: Van der Waals Forces
1Van der Waals Forces
- Johannes Diderik van der Waals
2- E. The motion of particles in these phases
http//itl.chem.ufl.edu/2045_s00/lectures/FG11_001
.GIF
3Polarity
- Separation of charge
- An asymmetrical difference in electronegativity
along a bond or in a molecule
4Circle the polar molecules. Label d and d-
Cl Ca Cl
d-
d-
d
d-
d
d
5Non-Polar
- C. __________ molecules are symmetrical
- Â D. What is the bond angle in H2O? _______
- Â E. The motion of particles in these
phases Solid Liquid Gas
104.5o
http//itl.chem.ufl.edu/2045_s00/lectures/FG11_001
.GIF
6Van der Waals Forces
- Small, weak interactions between molecules
- Â
7Van der Waals Forces
- Intermolecular between molecules (not a bond)
- Â
- Intramolecular bonds within molecules (stronger)
Covalent Bonds
IMF
8What is being attracted?
- d attracted to d-
- ? electrostatic attraction
- e- s of one atom to another atoms nucleus
e-
e-
9Evidence of VDW Forces?
- Non-polar molecules can form gases, liquids and
solids. - Ex CO2
10Hydrogen Bonding
- STRONGEST Intermolecular Force!!
- A special type of dipole-dipole attraction
- Bonds form due to the polarity of water
- Draw 4 H2O molecules in your notes
Covalent Bonds
Ice
Liquid
11Hydrogen Bonding cont
- Hydrogen bonds keep water in the liquid phase
over a wider range of temperatures than is found
for any other molecule of its size
12Hydrogen bonds account for the high boiling point
of water
13Expansion of Ice
- Ice expands when water freezes compared to most
substances that contract when freezing - Ice bomb video
http//www.youtube.com/watch?verlZb8QiPkg
14Density vs Temperature of H2O
3.98 oCmax density of water liquid!
Solid Ice
Liquid water
15Hexagonal Ice
http//hyperphysics.phy-astr.gsu.edu/hbase/chemica
l/imgche/waterhex.gif
http//www.gala-instrumente.de/images/4420hexagon
al20ice.jpg
16 - Halos, Sundogs, Pillars are caused by hexagonal
ice crystals
http//images.usatoday.com/tech/_photos/2006/09/12
/cloud.jpg
17Ponds Freezing
- Solid water (ice) has a lower density than liquid
water
18Why is this good?
Ponds freeze from the top down, insulating the
water below and keeping it from freezing solid.
Without this, ponds would freeze solid and thaw
more slowly
19Lab
Surface Tension Capillary Rise
Property Prediction (Polar vs Nonpolar) Result
drops on a penny
Height in capillary tube
20Surface Tension
- Enhancement of the intermolecular attractive
forces at the surface
21Evidence
- Lab
- Dixie cup
- Penny
- Capillary tube
- needle
http//www.youtube.com/watch?vvajL48mwsCA
22What causes surface tension?
- The cohesive forces between molecules are shared
with all neighboring atoms. - Since the surface has no neighboring atoms above,
they exhibit stronger attractive forces for their
neighbors next to and below them
23How many drops can you get on a penny?
- Water?
- TTE?
- Why is there a difference???
- Water has strong Hydrogen Bonds and TTE has
weaker intermolecular forces
http//www.msnucleus.org/membership/html/k-6/wc/wa
ter/1/images/penny.jpg
24How is surface tension affected by soap?
- Breaks the surface tension!
http//www.chemistryland.com/CHM107/Water/SoapDisr
uptsWater.jpg
http//www.chemistry.nus.edu.sg/2500/micelle.jpg
25Capillary Rise
glass
gravity
H2O Hg
- Water rises up the capillary tube because there
are unbalanced forces between the water and glass
and the water and gravity
26Which is larger? Adhesion or Cohesion?
Adhesion attraction between H2O (Hg)
glass Cohesion attraction of H2O (Hg) molec. to
each other
Adhesion gt Cohesion
Cohesion gt Adhesion
27Do other liquids exhibit capillary rise?
- As long as they are attracted to glass and have
enough cohesion
28IM forces and interactions between liquids and
surfaces
Cohesion gt Adhesion Liquid Beads on Surface
Cohesion lt Adhesion Liquid Wets the Surface
293 Types of Van der Waals Forces
- 1)Â Â Â dipole-dipole
- 2)Â Â Â dipole-induced dipole
- 3) dispersion
30Dipole-Dipole
Two polar molecules align so that d and d- are
matched (electrostatic attraction) Ex ethane
(C2H6) vs. fluromethane (CH3F)
31Fluoromethane (CH3F) boiling point 194.7 K
polar or non-polar?
H H H C F H C F H
H
Ethane (C2H6) boiling point 184.5 K
polar or non-polar?
32Try This
- Draw two KBr molecules and draw their
dipole-dipole interactions with a dashed line.
33What does to induce mean?
- To cause or bring about
- Ex
- Induced vomiting
- Induced labor
- Induced coma
34Dipole-Induced Dipole
- A dipole can induce (cause)
- a temporary dipole to form in a
- non-polar molecule
- The molecules then line up
- to match d and d- charges
35Example
e-
e-
e-
e-
Ar
e-
e-
d-
d
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
INDUCED DIPOLE
non-polar
A DIPOLE (its polar)
Dipole Induced Dipole (weak and short-lived)
36Draw CO2 (aq)
- What does (aq) mean?
- dissolved in WATER
- Sodraw CO2 (g) in H2O (l)
d-
d
d
d-
d-
d
37Where is CO2 (aq) seen?
- Carbonated water
- CO2 is not very soluble
- 1 CO2 in 1000 H2O molecules
http//www.packaging-technology.com/contractor_ima
ges/venus/4_rinser.jpg
38Dispersion Forces
- A temporary dipole forms in a
- non-polar molecule
- which leads to
- a temporary dipole to form in ANOTHER non-polar
molecule - Dispersion is the ONLY intermolecular attraction
that occurs between non-polar molecules
39Dispersion Forces
e-
e-
e-
e-
Cl-Cl
e-
e-
e-
e-
Cl-Cl
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
e-
INDUCED DIPOLE
TEMPORARY DIPOLE
non-polar
non-polar
Dispersion (weakest and very short-lived)
40Tokay GeckoDispersion Forces!
http//www.youtube.com/watch?vTq8Yw19bn7Qfeature
related
41Review
- Dipole Dipole
- between two polar molecules
- Dipole Induced Dipole
- b/w a polar a non-polar molecule
- Dispersion
- between two non-polar molecules
42Evaporation
- Diagram the distribution of kinetic energy at a
temperature
25oC
75oC
5oC
particles
low KE
ave KE
high KE
43Which molecules will evaporate?
This lowers the total kinetic energy
(temperature) of the entire system
Only high energy molecules can vaporize
particles
low KE
ave KE
high KE
44Boiling
Pvap Patm
45Boiling
Pvap
Pvap Patm
46Boiling
- Boiling occurs when
- Vapor Pressure Barometric Pressure
- When Vapor Pressure 760 mmHg, Boiling Point
100oC
47Evaporation Questions
- Why do we sweat?
- breaking waters bonds has a cooling effect
- high energy molecules are lost
482. Why does water stay cool in clay containers?
- Since clay is porous, high energy molecules
escape leaving lower temperature water
When the water added to the sand evaporates in
the Pot-in-Pot Cooler, it pulls heat from the
smaller pot, keeping vegetables cool.
Refrigeration for the other 90
http//www.juneauempire.com/images/050406/13484_50
0.jpg
http//www.npr.org/templates/story/story.php?story
Id11032381scemaf
http//www.juneauempire.com/images/050406/13484_50
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49jiibindaa
502. Why does water stay cool in clay containers?
- Since clay is porous, high energy molecules
escape leaving lower temperature water
Refrigeration for the other 90
http//www.npr.org/templates/story/story.php?story
Id11032381scemaf
513. Why can liquid water change to vapor at room
temperature?
- High energy molecules escape
- Evaporation occurs at all temperatures
52- 4. Define vapor pressure
- Pressure of a vapor above its liquid at
equilibrium - Pressure of molecules in their bubbles
- Can solids have a vapor pressure?
- Yes! Solid? Gas
- Ex ice, dry ice, plastics
53- 5. What is the difference between evaporation and
boiling? - Evaporation occurs at any temperature high
energy molecules escape - Boiling occurs when atmospheric pressure vapor
pressure
54Volatile Substances
- Easily evaporate
- Weak attractive forces
- Low boiling point
- High vapor pressure
55Non-volatile substances
- Do not easily evaporate
- Strong attractive forces
- High boiling point
- Low vapor pressure
56Chemical Equilibrium
Forward Reaction
Reverse Reaction
Rate of forward reaction Rate of reverse
reaction
57Dynamic Equilibrium
Reaction looks like it has stopped, but is
dynamic at the molecular level
58What conditions are necessary for equilibrium?
- Closed System
- Rate of fwd rxn rate of rev rxn
- Constant temp, pressure, color
- Both reactants and products are present (but not
necessarily in equal amounts)
59How Do Pressure Cookers Work?
Pressure cookers increase the pressure above the
water so that water boils at a ________
temperature and cooks food ________
HIGHER
http//www.goalfinder.com/images/SPGPRO2/pressur-d
esign-of-pressure-cooker.jpg
QUICKER
60Phase Changes
105
DKE
DPE
100
DKE
Temperature (oC)
DPE
0
DKE
Where is there a DKE?
Where is there a DPE?
- 5
Time
61Terms
- Melting Point
- Temp when substances changes from l ? s
- Boiling point
- Temp when substance changes from l ? g
- DKE
- where there is a change in temperature
- DPE
- where theres a phase change
- (constant temp)