Stoichiometry “Limiting Reactants and Percentage Yield”

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Stoichiomet ry “Limiting Reactants and Percentage Yield”

Transcript of Stoichiometry “Limiting Reactants and Percentage Yield”

Stoichiometry“Limiting Reactants and Percentage Yield”

Consider a Bicycle Each bicycle needs 2 tires, one seat,

and 2 handlebars.

How many complete bikes can be made from 6 tires, 7 seats, and 5 handlebars?

Which one runs out first???

This is the LIMITING REACTANT

Limiting Reactants Just like the bike example, a reaction will

run out of a reactant before all parts are consumed.

A limiting reactant is the substance that controls the quantity of product that can form in a chemical reaction.

The handlebars were limiting in the bike problem

Excess Reactants The “other” reactant must be in excess

if it is not limiting.

The excess reactant is the substance that is not used up completely in a reaction. Some remains still. The tires and seats were in excess in the

bike example.

Calculating Theoretical Yield If you are given quantities of all the

reactants involved, it is a Limiting Reactant problem.

You must first determine which reactant is limiting before you can calculate the theoretical amount, or theoretical yield, of the products.

Calculating Theoretical Yield Rules for making L.R. calculations:

1. Write out and balance the equation.2. Determine if the problem is an L.R.

(quantities of all reactants are given)3. Convert all quantities to moles4. Divide each value of moles by its own

corresponding stoichiometric coefficient.5. Whichever number is smallest is the L.R.6. Calculate the products using that reactant.

Practicing With L.R.’sIdentify the limiting reactant and the theoretical yield of phosphorous acid, H3PO3, if 225 g of PCl3 is mixed with 125 g of H2O.

___PCl3 + ___H2O ___H3PO3 + ___HCl

Practicing With L.R.’s___CuO(s) + ___H2(g) ___Cu(s) + ___H2O(g)

What is the limiting reactant when 19.9 g CuO react with 2.02 g H2?

Actual Yield and Percentage Yield Equations tell you what should happen in

a reaction, not always what does happen

The “theoretical yield” is what SHOULD be produced. What is calculated stoichiometrically.

The “actual yield” is what is ACTUALLY produced in lab by a reaction.

Percentage Yield Percentage Yield is the measured

amount of a product of a reaction.

In lab, we may only get 85% of the desired amount. Not everything is perfect in this world

The percent yield is a ratio of the ACTUAL yield and the THEORETICAL yield.

How to Calculate% Yield = Actual Yield x100 = %

Theoretical Yield

What is the percent yield if stoichiometry tells us we should get 14.7 g of product but actually only get 10.85 grams?

PracticeDetermine the limiting reactant, the theoretical yield, and the percentage yield if 14.0 g N2 are mixed with 9.0 g H2, and 16.1 g NH3 are recovered.

___N2 + ___H2 ___NH3

Determining Actual Yield Even though the actual yield can only be

determined experimentally, we can estimate the amount if we know the percentage yield.

Say a reaction usually yields about 80.5% of the theoretical yield. We have enough to make 200 grams (theoretically). We can assume that we will get around 80.5% of 200 g or roughly 161 grams.

Calculating Actual YieldHow many grams of C7H8O2 should form if 4808 g are theoretically possible and the percent yield for the reaction is 83.2%?

Calculating Actual YieldThe percent yield of NH3 from the following reaction is 85.0%. What actual yield is expected from the reaction of 1.00 kg N2 with 225 g H2?

Practice, In-Class Assignment Due at end of block:

Page 319, Section Review#6, 7, 8, and 11.

Separate sheet of notebook paper,turned in, 16 points