- 100%
- Greater than 100%
- Less than 100%
- 0%
Category: Chemistry
- The amount of limiting reactant
- The coefficients in the balanced equation
- The efficiency of the laboratory procedure
- The molar mass of the product
- Reactant consumed
- Product formed
- Catalyst used
- Energy released
- Theoretical chemistry
- Chemical manufacturing and synthesis
- Physical chemistry
- Analytical chemistry
- Impossible
- Possible and indicates a highly efficient reaction
- Possible, but suggests the product is wet or contaminated with impurities
- A common result for this type of reaction
- 75% of the limiting reactant
- 75% of the excess reactant
- 75% of the maximum possible amount of product
- 25% of the theoretical yield
- Actual yield
- Percent yield
- Experimental yield
- Theoretical yield
- Theoretical yield
- Actual yield
- Rate of reaction
- Activation energy
- speed
- reactants
- products
- inefficiency or loss
- Percent yield
- Actual yield
- Limiting reactant mass
- Stoichiometric yield
- Calculation using mole ratios
- Estimation
- Experimentation
- Guessing
- The reaction is reversible and does not go to completion
- Some product is lost during filtration or transfer
- The reactants were measured perfectly and were 100% pure
- Unwanted side reactions occur
- High percent yield
- Known actual yield
- Balanced chemical equation
- High temperature
- Stoichiometry
- Thermochemistry
- Kinetics
- Equilibrium
- Actual amount of product formed
- Stoichiometry of the balanced chemical equation
- Rate of the reaction
- Percent yield of similar reactions
- The reaction was extremely efficient
- The law of conservation of mass was violated
- The product is impure (e.g., contains unreacted materials or water)
- The reaction created new matter
- (Theoretical / Actual) × 100%
- (Actual / Theoretical) × 100%
- (Actual – Theoretical) × 100%
- (Moles / Mass) × 100%
- Excess reactant
- Catalyst
- Limiting reactant
- Solvent
