| Term | Definition |
|---|
| Theoretical Yield | amount calculated using stoichiometry |
| Actual Yield | amount actually yielded in experiment |
| Solubility Rule #1 | 1. Most NO3 salts are SOLUBLE |
| Solubility Rule #2 | 2. Most salts of Na, K, & NH4 are SOLUBLE |
| Solubility Rule #3 | 3. Most chloride salts are SOLUBLE: INSOLUBLE EXCEPTIONS: AgCl, PbCl2, Hg2Cl2 |
| Solubility Rule #4 | 4. Most sulfate salts are SOLUBLE: INSOLUBLE EXCEPTIONS: BaSO4, PbSO4, CaSO4 |
| Solubility Rule #5 | Most hydroxide compounds are INSOLUBLE: SOLUBLE EXCEPTIONS: NaOH, KOH, Ca(OH)2 |
| Solubility Rule #6 | Most S, CO3, PO4 salts are INSOLUBLE |
| Solubility Rule #7 | BaCrO4 is INSOLUBLE |
| Chemical Reactions | Precipitation Reactions, Oxidation Reactions (Redox), Acid-Base Reactions |
| Precipitation Rxns | driving force- a precipitate |
| Oxidation Rxns | driving force- transfer of electrons |
| Acid-Base Rxns | driving force- form H2O and salt |
| Redox equations | trying to determine oxidation state (charges) |
| Avogadro's # | 6.023x10^23 |
| Molecular Equation | equation that contains all the compounds balanced and their states given |
| Complete Ionic Equation | equation where the molecular equation is broken up and compounds are separated into parts |
| Net Ionic Equation | Compounds on both the reaction and product side are crossed out and whatever is left is the equation |
Combine with other sets
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