This page contains some practice problems to help you with limiting reagents.  You can click here to print the problems as a worksheet.  An answer key is attached at the end.  (Please remember that there may be alternate ways to solve the problems and get the same answer.  In the answer key I am only showing you the way that I chose to approach the problem.)

Limiting Reagents Practice Problems

1. Heating zinc sulfide in the presence of oxygen yields the following:                    _____ZnS + ____O₂ –> ___ ZnO + ____SO₂

If 1.72 mol of ZnS is heated in the presence of 3.04 mol of O_2, which reactant will be used up? (Balance the equation first.)

2. Use the folowing equation for the oxidation of aluminum in the following problems. 4Al + 3O₂  –> 2Al₂O₃

If 3.17g of Al and 2.55g of O₂ are available, which reactant is limiting?

3. In the production of copper from ore containing copper(II) sulfide, the ore is first roasted to change it to the oxide according to the following equation:             2CuS + 3O₂  –> 2CuO + 2SO₂

What mass of CuO can be formed from the reaction of 18.7g of CuS and 12.0g of O₂?  Identify the limiting reagent and the excess reagent.

4. In the reaction BaCO₃ + 2HNO₃ –>  Ba(NO₃)₂ + CO₂ + H₂O, what mass of barium nitrate can be formed by combining 55g BaCO₃ and 26g HNO₃?

5. Bromine replaces iodine in magnesium iodine by the following process:

MgI₂ + Br₂  –>  MgBr₂ + I₂

Which is the excess reactant when 500. g of MgI₂ and 369g of Br₂ react, and what mass of the excess reagent remains?

Click here to see the answers to these practice problems!

To learn more about stoichiometry, continue to the next page about solving percent yield problems.

6. Nickel replaces silver from silver nitrate in solution according to the following equation:

2AgNO₃ + Ni             2Ag + Ni (NO₃)₂

If you have 22.9g of Ni and 112g of AgNO₃ available_, what mass of nickel (II) nitrate can be produced?  Identify the limiting reagent and the excess reagent in this problem.