CALCULATIONS INVOLVING LIMITING REAGENTS

1. CALCULATIONS INVOLVING LIMITING REAGENTS Sometimes in order to solve stoichiometric problems, you will need to find the limiting reagent first.

2. Terms to Know • Stoichiometry • Stoichiometric coefficients • Stoichiometric amounts • Limiting reactant • Excess reactant

3. Review: The limiting reactant gets used up first in a reaction. The excess reactant has some left over.

4. What is a Limiting Reactant? • When you run out of one reactant before all the others. This will determine the maximum amount of product that can be produced. • Think back to our miners complete breakfast…you have 12 slices of bread and 8 eggs, , 2000mL of juice and 17 slices of bacon - how many breakfasts can you make? • You run out of eggs before you run out of anything else so you can only make 4 breakfasts’

5. The Limiting Reactant in Stoichiometric Problems • After you determine the limiting reactant you use the mole value for the limiting reactant for all problems! • E.g. N2(g) + 3H2(g) 2NH3(g) m=25.0g m=5.00g m=? M=28.0g/mol M=2.00g/mol n=m/M=25/28 n=m/M=5/2 n=0.893mol n=2.50mol Which one do you run out of first? Which is limiting?

6. Solution N2(g) + 3H2(g) 2NH3(g) m=25g m=5g m=? M=28g/mol M=2g/mol n=m/M=25/28 n=m/M=5/2 n=0.893mol n=2.5mol Compare N2 to H2 If you have 0.893 moles of N2, how many moles of H2 needed? 3H2/1N2 = x H2/0.893 N2 x = (3H2)(0.893N2)/1N2 x = 2.68 moles of H2 needed H2 needed > H2 actual, therefore H2 is limiting excess limiting n=0.893 moles n=2.5 moles calculate moles NH3 produced 2NH3/3H2 = x NH3/2.5H2 x NH3 = (2NH3)(2.5H2)/3H2 x = 1.67 moles of NH3 produced n = 1.67 moles M = 17 g/mole m = nM=(1.67)(17) m = 28.3 g of NH3 formed

7. EXAMPLE 1: Determine the amount of titanium metal produced when 2.8 mol of titanium (IV) chloride reacts with 5.4 mol of magnesium. STEP 1: Write a balanced chemical equation with knowns and unknowns.

8. EXAMPLE 1: Determine the amount of titanium metal produced when 2.8 mol of titanium (IV) chloride reacts with 5.4 mol of magnesium. STEP 2: Find out which reactant is the limiting reagent by using one reactant to solve for the other or mole ratios.

9. EXAMPLE 1: Determine the amount of titanium metal produced when 2.8 mol of titanium (IV) chloride reacts with 5.4 mol of magnesium. STEP 3: Use the limiting reagent to find the number of moles of the required substance.

10. Now, we will follow the same logic to find the mass of a product. We always start by finding the limiting reagent.

11. EX 2: Methanol, CH3OH, is made by combining carbon monoxide and oxygen. What mass of CH3OH is produced from 9.80g of CO and 1.30g of H2? STEP 1: Write out the balanced chemical equation as well as knowns and unknowns underneath.

12. EX 2: Methanol, CH3OH, is made by combining carbon monoxide and oxygen. What mass of CH3OH is produced from 9.80g of CO and 1.30g of H2? STEP 2: Convert the mass of both substances to moles.

13. EX 2: Methanol, CH3OH, is made by combining carbon monoxide and oxygen. What mass of CH3OH is produced from 9.80g of CO and 1.30g of H2? STEP 3: Determine the limiting reagent.

14. EX 2: Methanol, CH3OH, is made by combining carbon monoxide and oxygen. What mass of CH3OH is produced from 9.80g of CO and 1.30g of H2? STEP 3: Use the limiting reagent to complete the question. Basically you just have to fill in the table.

15. Note: From now on, you must verify that you are using the limiting reactant when you are finding out how much product is formed.

16. HOMEWORK: