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AP Chemistry 3.1 Structure and Arrangement of Atoms 19 Views
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AP Chemistry 3.1 Structure and Arrangement of Atoms. Which substance exhibits the weakest intermolecular forces and possibly the lowest boiling point?
Transcript
- 00:04
And here's your Shmoop du jour, brought to you by the force. [Girl using the force at a birthday party]
- 00:07
Nifty party trick, but not a good explanation tactic on exams…
- 00:13
Here's our question….
- 00:14
The boiling point for a covalent compound can be predicted by understanding intermolecular
- 00:19
forces. Which substance below exhibits the weakest intermolecular forces and possibly
Full Transcript
- 00:25
the lowest boiling point?
- 00:28
Alright. Well, the question writer threw us a bone by telling us that the substance with [Men fighting over a bone]
- 00:36
the weakest intermolecular forces will have the lowest boiling point.
- 00:41
So all we have to do is figure out which substance has the weakest forces between its molecules.
- 00:47
How do we do this?
- 00:48
Use the forceeee…
- 00:54
All intermolecular forces are ultimately just an attraction between a positive charge and [Positive and negative charge connected with love heart]
- 01:00
a negative charge, but the type of molecule will dictate how much charge is involved.
- 01:06
The more charge, the more attraction.
- 01:08
There are essentially four strengths of charge interactions that we can rank.
- 01:12
The strongest is ionic bonding, because it involves attractions between ions that have
- 01:18
at least one full positive or negative charge. [Ions attract each other from sodium and chlorine]
- 01:21
Another type of fairly strong interaction is a dipole interaction. A dipole interaction
- 01:27
occurs when a molecule has a bond dipole between a very electronegative atom, and a less electronegative
- 01:33
atom.
- 01:34
This strong dipole creates a partial positive charge on the less electronegative atom and
- 01:38
a partial negative charge on the more electronegative atom.
- 01:41
The partial negative charges are attracted to the partial positive charges, making the [Example of normal dipole interaction]
- 01:46
molecules stick together, but not as tightly as if they were full charges.
- 01:51
So…maybe not the molecules you want on your side in a rumble… [Ionic bonds fighting a dipole]
- 01:56
Any dipole in a molecule will do this, but hydrogen bonding is a special case in which
- 02:01
these interactions are particularly strong. [Hydrogen bonds in a cup of water]
- 02:03
A hydrogen bond is a dipole interaction that occurs in a molecule that has hydrogen atoms
- 02:08
bonded to a very electronegative atom, typically oxygen or nitrogen like the example shown
- 02:14
here.
- 02:15
Here’s what’s on our list so far: There’s one last force to consider. Electrons
- 02:24
in a molecule can move around and shift their charge density. This can cause more of the [Electrons moving around in a molecule]
- 02:28
negative charges of electrons in a molecule to temporarily end up on one side of the molecule,
- 02:34
leaving that side slightly negatively charged and the other side slightly positively charged
- 02:40
for a brief instant in time. The negatively charged side of one molecule can attract the
- 02:45
positively charged side of another, and the bigger the molecule, the greater the area
- 02:49
over which this attraction occurs and the stronger it is. [Lots of molecules with negatively charged electrons]
- 02:53
These attractive forces are very weak for one important reason:
- 02:56
The unbalanced charge lasts less time than it takes to jump to hyperspace. [Spacecraft jumps through hyperspace]
- 03:02
So here's our final lineup of forces:
- 03:11
Now we need to figure out what forces are holding together the molecules in the question..
- 03:15
We can get through this at light speed. [Spaceship appears]
- 03:16
H2O and BF3
- 03:19
both have dipoles, but H2O can make hydrogen bond, while BF3 sadly cannot.
- 03:25
That means H2O has the strongest intermolecular forces, followed closely by BF3. [H2O rocket wins race ahead of BF3]
- 03:31
Both CO2 and SeO2 only have London Dispersion Forces, but CO2 is smaller than SeO2, so that's that... Carbon
- 03:41
is higher on the periodic table, therefore smaller than selenium, so the forces holding [Carbon and selenium circled on periodic table]
- 03:45
it together are weaker.
- 03:46
So to make a very long story short, the answer to the question is C. Small, but proud. [Darth Vader points to answer C]
- 03:52
Much like a wise little green dude we know…
- 03:54
The right answer, C is…used the force, we did… [Yoda makes Darth Vader disappear]
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