1. Classify chemical reactions as Synthesis (Combination), Decomposition, Single Displacement (Replacement), Double Displacement (Replacement) and Combustion. ([5.2, Pg.72]) |
1. Classify chemical reactions as Synthesis (Combination), Decomposition, Single Displacement (Replacement), Double Displacement (Replacement) and Combustion. [5.2, Pg.72] |
3. Balance chemical equations (by applying the law of conservation of mass)(<b>([5.1, Pg.72]) |
3. Balance chemical equations (by applying the law of conservation of mass and constant/definite proportion)[5.1, Pg.72] |
4. Calculate the mass-to-mass stoichiometry for a chemical reaction. ([5.5, Pg.72]) |
4. Calculate the mass-to-mass stoichiometry for a chemical reaction. [5.5, Pg.72] |
5. Calculate percent yield in a chemical reaction ([5.6, Pg.72]) |
5. Calculate percent yield in a chemical reaction [5.6, Pg.72] |
All information after line to end of page is Not on Test or Midyear |
<b>All information after line to end of page is Not on MCAS |
1. Classify chemical reactions as Synthesis (Combination), Decomposition, Single Displacement (Replacement), Double Displacement (Replacement) and Combustion. ([5.2, Pg.72])
2. Explain the significance of the coefficients of a balanced chemical reaction (number of particles, moles, and volume)
3. Balance chemical equations (by applying the law of conservation of mass)(<b>([5.1, Pg.72])
4. Calculate the mass-to-mass stoichiometry for a chemical reaction. ([5.5, Pg.72])
5. Calculate percent yield in a chemical reaction ([5.6, Pg.72])
All information after line to end of page is Not on Test or Midyear
4. Calculate EFand MF. This include determining EF from mass data, percent composition info, and MF from mass data, percent composition and EF data.
5. Predicting Products of:
6. Explain the difference between a complete chemical reaction and a net ionic reaction
Updated 2006 - (5.6) Calculate percent yield in a chemical reaction (also in Limiting Reactant & Redox section)
Things needed to be memorized