Review Game Zone
Games
Test
Preview
Back
Match it!
Match it! Select the correct answer from the pull down...Good luck!
What is the study of the mass relationships among reactants and products in a chemical reaction?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
In the reaction Ca + Cl2 CaCl2, what is the mole ratio of chlorine to calcium chloride?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
If one knows the mass and molar mass of reactant A and the molar mass of product D in a chemical reaction, one can determine the mass of product D produced by using the
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
In the reaction 2H2 + O2 2H2O, what is the mole ratio of oxygen to water?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
In the reaction N2 + 3H2 2NH3, what is the mole ratio of hydrogen to ammonia?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
Which of the following would NOT be studied in the branch of chemistry called stoichiometry?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
Each of the four types of reaction stoichiometry problems requires using a
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
Which of the following would be investigated in reaction stoichiometry?
the mass of potassium required to produce a known mass of potassium chloride
mole ratio.
1:2
3:2
mole ratio of D to A from the chemical equation.
the amount of energy required to break the ionic bonds in calcium fluoride
reaction stoichiometry
1:1
Check it!