Lesson: Chapter - 7

Limiting Reagents

Have you ever noticed that hot dogs are sold in packages of 10, while the buns come in packages of eight? In this scenario, the buns are the limiting reactant in the sense that they limit the hot dog preparation to eight. The limiting reactant or reagent is the one that is consumed first in the chemical reaction, and its consumption halts the progress of the forward reaction.

The reactant in a chemical reaction that limits the amount of product that can be formed. The reaction will stop when all of the limiting reactant is consumed.

Excess Reactant

The reactant in a chemical reaction that remains when a reaction stops when the limiting reactant is completely consumed. The excess reactant remains because there is nothing with which it can react.

When answering questions about limiting reagents on the exam, your first step should always be to convert all the masses you were given into moles. You should set up your table as you did before, only now you’ll have two amounts and thus two numbers of moles to get you started.

Let’s look at a specific question, involving the Haber process. Basically, this is the process of making ammonia from the reaction of nitrogen and hydrogen gases. The reaction is shown below:

Molar mass (28.02) (2.02) (17.04)
Balanced equation N2 3H2 ? 2NH3 
No. of moles      
Amount      

Suppose you have a total of 25.0 kg of nitrogen to react with a total of 5.00 kg of hydrogen. What mass of ammonia can be produced? Which reactant is the limiting reactant? What is the mass of the reactant that’s in excess? Insert the masses in the correct rows and find the number of moles of both.

Molar mass (28.02) (2.02) (17.04)
Balanced equation N2 3H2 ? 2NH3 
No. of moles 892 mol 2475 mol  
Amount 25,000 g 5000 g  

Start with nitrogen. You have 892 moles of it available, and in order for the nitrogen to react completely with hydrogen, you’d need 3(892 mol) = 2676 moles of hydrogen, which you don’t have. Therefore, hydrogen is the limiting reagent. Now let’s answer the other parts of the question. The mass of ammonia that can be produced is limited by the amount of hydrogen, so do your calculations based on the number of moles of hydrogen available. Your chart should look like the one below:

Molar mass (14.02) (2.02) (17.04)
Balanced equation N2 3H2 ? 2NH3 
No. of moles 825 mol used 2475 mol therefore 1650 mol produced
Amount 892 mol, 925 mole × 28.02 = 23,117 g used 25,000g, 1883g excess 5000 g 1650 mol (17.04) = 28,116 g produced
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