| KEY: |
||
| text (Chang) |
delivery method | evaluation method |
| x.y where |
l = lecture |
T = lecture test |
| x = chapter |
n = notes |
Lx = lab number x (labs are also delivery methods)1 |
| y = section |
v = video tape or internet streaming video available |
F = final exam |
| CI = critical item question or lecture test |
| item |
Performance/Task: The student will: | text sections |
delivery method |
eval. method |
| Intermolecular Forces and the Condensed Phases | ||||
| 1 |
Be able to describe the condences phases and be able to contrast between the three states of matter. | 11.1 | l/n/v | T |
| 2 |
Be able to describe and rank the various inter-particle forces. (London, dipole/ionc-dipole/ionic, dipole-induced dipole, "hydrogen bond") | 11.2 | l/n/v | T |
| 3 |
Be able to describe and explain the relative boiling points and melting points from the inter-particle forces | 11.2 | l/n/v | T |
| Solid State |
||||
| 4 |
Be able to describe some simple crystal
structures for solids and do calculations based on these structures. |
11.4 |
l/n/v |
T |
| 5 |
Be able to identify types of solids and
describe the inter-particle forces for each type. (ionic, metallic,
covalent, molecular) |
11.6 |
l/n/v |
T |
| Phase Diagrams | ||||
| 6 |
Know meaning and location of the regions,
boundaries and points in a phase diagram (including the supercritical
fluid.) |
11.8 | l/n/v | T |
| 7 |
Be able to describe the equalibria involved
for each phase boundary and point. |
11.8 |
l/n/v |
T |
| 8 |
Be able to do calculations based on
the Clausius-Clapeyron equation and the associated van't Hoff plot |
11.8 | l/n/v | T |
| 9 |
Be able to do calculations to obtain
the total enthapy using heat capacities and heats of phase changes |
11.8 | l/n/v | T |
| 10 |
Be able to describe a system that is
in dynamic equilibrium. |
11.8 | l/n/v | T |
| Electrolytic Solutions | ||||
| 11 |
Know the general characteristic of electrolytic and non-electrolytic solutions and the molecular dynamics involved | 12.1,12.2 | l/n/v | T |
| 12 |
Given enthapies of solution, be able to describe the temperature effects involved in solubility. | 12.4 | l/n/v | T |
| 13 |
Know the definitions of and be able to interconvert between molarity, percent concentration, molality and mole fraction. | 12.3 |
l/n/v | T/L1 |
| 14 |
Be able to do calculations based upon
Henry's law |
12.5 |
l/n/v | T/L |
| Colligative Properties and Mole Fraction** | ||||
| 15 |
Know the definition of colligative properties and the dependence upon mole fraction. | 12.6 | l/n/v | T,L15 |
| 16 |
Be able to calculate mole fraction and molality (based upon particle concentrations.) | 12.6 |
l/n/v | T,L15 |
| 17 |
Be able use Raoult's law in calculations. | 12.6 |
l/n/v | T |
| 18 |
Be able calculate freezing point depression and boilint point elevation. | 12.6 | l/n/v | T,L15 |
| 19 |
Be able calculate osmotic pressure. | 12.6 |
l/n/v | T |
| 20 |
Know how to modify the colligative property
calculations with the total concentration for electrolytic solutions |
12.7 |
l/n/v |
T |
| Colloids |
||||
| 21 |
Be able to describe the various properties
of colloid systems |
12.8 |
l/n/v |
T |