|
Aqueous Reactions and Solution Stoichiometry |
| 4-1 | Calculate the density, percent
composition, mole fraction, and molarity of a solution [and variations on the theme]. |
|
| 4-2 | Calculate the volume of a more concentrated solution that must be diluted in order to obtain a given quantity of a more dilute solution [and variations on the theme]. | |
| 4-3 | Identify substances as acids, bases, and salts. | |
| 4-4 | Predict whether a substance is a nonelectrolyte, strong electrolyte, or weak electrolyte from its formula. | |
| 4-5 | Predict the ions formed by electrolytes when they dissociate or ionize. | |
| 4-6 | Identify the spectator ions
and write the net-ionic equations for solution reactions starting with their molecular equations. |
|
| 4-7 | Predict the products of metathesis
reactions (including both neutral- ization and precipitation
reactions), and write balanced chemical equations for them. |
|
| 4-8 | Identify the driving force for any metathesis reaction. | |
| 4-9 | Use solubility rules to predict
whether a precipitate will form when electrolyte solutions are mixed. |
|
| 4-10 | Given the activity series,
predict whether a reaction will occur when a metal is added to an aqueous solution of either a metal salt or an acid; write the balanced molecular and net-ionic equations for the reactions. |
|
| 4-11 | Perform solution stoichiometry calculations based on titration data. | |
You are responsible
for all material discussed in Lecture and all material
contained in the text (unless otherwise indicated) whether or
not it appears here.