Stoichiometry

TOPICS

Everyday Stoichiometry

Simple Stoichiometry

Calculating Amount of Product or Reactant

Limiting Reagent

Percent Yield

Standards Addressed:

Conservation of Matter and Stoichiometry

3a. Students know how to describe chemical reactions by writing balanced

chemical equations

3d. Students know how to determine the molar mass of a molecule from its

chemical formula and a table of atomic masses an how to convert the mass of

a molecular substance to moles, number of particles, or volume of gas at STP.

3e. Students know how to calculate the masses of reactants and products in

a chemical reaction from the mass of one of the reactants or products and the

relevant atomic masses.

Definitions

Stoichiometry: the study of mass relationships on

chemical equations.

Excess: more than enough available; won’t run out of that

reactant

Mole-mole ratio: how two substances are numerically

related to each other in units of moles; you get these

numbers from the balanced chemical equation.

Everyday Stoichiometry:

2 wheels + 1 frame → 1 bike

How many wheels and frames do you need to make 5

bikes?

If you have 6 wheels and 4 frames, how many bikes can

you make?

If you have 11 wheels and 3 frames, how many bikes can

you make?

TOPICS

Everyday Stoichiometry

Simple Stoichiometry

Calculating Amount of Product or Reactant

Limiting Reagent

Percent Yield

Simple Stoichiometry:

Here is the “recipe” for water:

2 H2 + O2 → 2 H2O

*This recipe says:

2 molecules of H2 react with 1 molecule of O2 to produce 2

molecules of water

2 moles of H2 react with 1 mole of O2 to produce 2 moles of

water

Question

How many hydrogens and oxygens do you need to make

8 waters?

How many waters can you make from:

10 H2 and 4 O2

5 H2 and 3 O2

25 H2 and 16 O2

Which of each is in excess?

Question

Here is the “recipe” for diphosphorus pentoxide:

4 P + 5 O2 →2 P2O5

How many phosphorus and oxygens do you need to make 4

diphosphorus pentoxide?

How many diphosphorus pentoxide can you make from:

12 P and 20 O2

21 P and 21 O2

TOPICS

Everyday Stoichiometry

Simple Stoichiometry

Calculating Amount of Product or Reactant

Limiting Reagent

Percent Yield

Mole-Mole Ratios

Come from the balanced chemical equation Ratio made between the “given” substance and

the “get” substance Use the coefficients of the “given” and “get”

from the balanced chemical equation Ratios can be between any 2 substances

Reactant-reactant Reactant-product Product-product

Mole-Mole Ratio Examples

2 H2 + O2 → 2 H2O

2 mole H2 2 mole H2O

1 mole O2 2 mole H2

Mole-Mole Ratio Examples

Fe2O3 (s) + 3 CO (g)→ 2 Fe (s) + 3 CO2 (g)Write a mol-mol ratio between the reactants…

Write a mol-mol ratio between a product and a reactant…

Write a mol-mol ratio between a product and a product

Calculating Amount of Reactant Needed

2 P + 3Cl2 → 2 PCl3

How many moles of phosphorus are consumed if 12

moles of phosphorus trichloride are produced?

How Much Product is Produced?

2 P + 3Cl2 → 2 PCl3

How many moles of PCl3 can be formed from 5 moles

chlorine and excess phosphorus?

Question

2 H2 + O2 → 2 H2O

How many moles of water are produced by burning 2.72

mol H2 in an excess of O2?

Question

2 H2 + O2 → 2 H2O

What mass of O2 is consumed in the complete

combustion of 6.86g H2 ?

Question

2 Ag2CO3 (s) → 4 Ag(s) + 2CO2(g) + O2(g)

How many grams of Ag2CO3 must have decomposed if

75.1 grams of Ag were obtained in the reaction?

Question

2 Ag2CO3 (s) → 4 Ag(s) + 2CO2(g) + O2(g)

How many grams of carbon dioxide were produced if

25.0 g of oxygen were produced?

Let’s Summarize the Steps

1. Is there a balanced chemical equation?

2. Write down the “given” and the “get”

3. Mini road map…g-mol-mol-g

4. Set-up a dimensional analysis equation

5. Cancel units and calculate

6. Report answer to correct # of sig. figs.

THE LONGEST “MINI ROAD MAP”

YOU WILL HAVE TO FOLLOW

GRAMS-MOLES-MOLES-GRAMS

Question

KClO3 + 5 KCl + 6 HNO3 → 6KNO3 + 3Cl2 + 3 H2O

How many grams of KClO3 are required to prepare

10.0g of Cl2 ?

Iron (II) oxide decomposes into iron and oxygen gas.

2 FeO → 2 Fe + O2

How many grams of FeO are needed to produce 140g of

Fe?

Hydrochloric acid reacts with zinc metal to produce zinc chloride and hydrogen gas 2 HCl + 2 Zn → ZnCl2 + H2

How many grams of hydrochloric acid are required to

react completely with 1.00g of zinc?

Topics

Everyday Stoichiometry

Simple Stoichiometry

Calculating Amount of Product or Reactant

Limiting Reagent

Percent Yield

Anticipatory Set 3 cups flour + 2 cups sugar + 1 cup butter + 3 eggs = 1 batch Flour Sugar Butter Eggs

13 cups 10 cups 3 cups 20

How many batches of cookies can we make? How did you figure it out?

Flour-4 Sugar-5 Butter-3 Eggs-7, so we can only make 3 batches. The

butter yields the smallest amount possible that can be produced. The butter

tells how many bathes we can make; therefore the butter is the limiting

ingredient.

Summarize

Here, we did multiple calculations side by side and

then chose the correct result.

We can use this same type of reasoning/procedure

to calculate the limiting reagent in a given chemical

reaction.

Definition

Limiting reagent: the reactant that is

completely used up in the chemical reaction.

The limiting reagent determines how much

product can be formed. Calculating Limiting Reactant Which reactant will run out first? You can’t tell just by

looking at it, so you need to do some calculations. NOTE: In limiting reagent problems, BOTH

REACTANTS are converted to the same PRODUCT

Calculating the Limiting Reagent

P4 + 6 Cl2 → 4 PCl3

What mass of PCl3 forms in the rxn of 125g P4 with 323 g Cl2?

Limiting Reagent

CH4 + 2 O2 → CO2 + 2 H2O

If 12.0g CH4 and 30.0g O2 react to form CO2 and H2O,

how many grams of CO2 will be formed?

Summarize the Steps we followed

1. Is there a balanced chemical equation?

2. Write down the 2 “givens” (both reactants) and the “get” (the product)

3. Set-up Dimensional Analysis equations; 1 for each given

g-mol-mol-g

4. Whichever reactant produced the smaller amount of product, that

reactant is the limiting reagent

5. Make your concluding statement

Topics

Everyday Stoichiometry

Simple Stoichiometry

Calculating Amount of Product or Reactant

Limiting Reagent

Percent Yield

Definitions

Theoretical Yield: How much product you expect to get based on

your calculation

Actual Yield: Amount of product actually produced when the reaction

is conducted… this amount is always stated in the problem

Percent Yield: the percentage of theoretical yield obtained from the

reaction

Calculating Percent Yield

% Yield = actual yield X 100%

theoretical yield

Calculating Percent YieldDetermine the percent yield for the reaction between

98.7g of Sb2S3 and excess oxygen if 72.4 g of Sb4O6 are recovered along with an unknown amount of sulfur dioxide gas.

Percent Yield Determine the percent yield for the reaction

between 46.5 g of ZnS and excess oxygen if 18.4 g of ZnO are recovered along with an unknown amount of sulfur dioxide gas.

END