| KEY: | |
| text (Chang) x.y x= chapter, y = section |
evaluation method |
| delivery method |
T = lecture test |
| l = lecture |
Lx = lab number x (labs are also delivery methods)1 |
| n = notes |
F = final exam |
| v = video tape or internet streaming video available | CI = critical item question or lecture test |
item |
Performance/Task: The student will: | text sections |
delivery method |
eval. method |
| The Perfect Gas Law |
||||
| 1 |
Be able to distinguish the three major
states of matter and know their properties |
5.1 |
T |
|
| 2 |
Know the definition of pressure |
5.2 |
T |
|
| 3 |
Be able to use the subset of gas laws:
Boyle's law, Charles' law, Amontons' law, Gay-Lussac's law, Avogadro's
principle combined gas law and the Dumas method. |
5.3 |
l/n/v |
T/L13/ L14/CI |
| 4 |
Be able to use the ideal gas law to
solve problems |
5.4 |
l/n/v |
13/ L14/T |
| 5 |
Know the definition of STP and the
significance/use of the value 22.4 L/mol at STP. |
5.4 |
l/n/v |
T/L13 |
| Combining the Perfect Gas Law with Stoichiometry
Problems |
||||
| 6 |
Be able to use the ideal gas equation
in combination with reaction stoichiometry |
5.5 |
l/n/v |
T/L13 /CI |
| Dalton's Law |
||||
| 7 |
Be able to derive Dalton's Law from
the ideal gas law. |
5.6 |
l/n/v |
T/L13 /L14 |
| 8 |
Know the definition of mole fraction
and be able to calculate it and interconvert it to other units. |
5.6 |
l/n/v | T |
| 9 |
Be able to use Dalton's Law in problem
solving. |
5.6 |
l/n/v |
T/L13 /L14 |
| 10 |
Be able to work with vapor pressure
together with Dalton's Law. |
5.6 |
l/n/v |
T/L13 |
| Kinetic Molecular Theory |
||||
| 11 |
Be able to describe the situation
where there are independent particles as a gas and derive the expression
for the molecular kinetic energy. |
5.7 |
l/n/v |
T/L9 |
| Graham's
Law |
||||
| 12 |
Be able to derive Graham's law from
kinetic molecular theory, i. e. the relationship between kinetic
energy and temperature |
5.7 |
l/n/v |
T |
| 13 |
Be able to use Graham's law for various
practical examples. |
5.7 |
l/n/v |
T/L10 |
| van der Waal's Equation |
||||
| 14 |
Be able to perform calculations using
the van der Waal's equation and know the significance of the van
der Waal's constants. |
5.8 |
l/n/v |
T |