1. DO NOW Turn in hydrate lab (is your lab partner’s name on it?
Pick up the notes and handout.
Do the INTRODUCTION TO STOICHIOMETRY handout with your lab partner(s) NOW. You have 10 minutes. Then turn it in.

2. INTRODUCTION TO STOICHIOMETRY
Ingredients:
(B) Sliced Bread, (H) Ham, (R) Turkey, (S) Salami, (C) Sliced cheese, (L) Lettuce, (T) Tomatoes, (P) Sliced Pickles
Directions:
On one slice of bread, layer 2 pieces of ham, one piece of turkey, 3 slices of salami, one piece of cheese, 2 pieces of lettuce, 3 slices of tomato, and 6 slices of pickles. Top with second slice of bread. Makes one ultimate sandwich with a formula of B2H2RS3CL2T3P6.

3. INTRODUCTION TO STOICHIOMETRY
1. Read the recipe above. Use the ingredients to write an equation representing the process of making the sandwich. Use the abbreviations given to represent each of the ingredients just like you would use chemical symbols for the elements and compounds. 2. Balance the equation using the amounts given for each of the ingredients.

4. INTRODUCTION TO STOICHIOMETRY
3. If you wanted to make two sandwiches, how many slices of pickles would you need? 4. You want to make enough sandwiches for the entire school. Let’s say the enrollment is currently 912 students. One whole pickle can make 25 slices. How many whole pickles will you need? Be sure to show how you got your answer.

5. INTRODUCTION TO STOICHIOMETRY
5. You are having a party for 40 people and you just discovered that you only have 3 whole pickles. What is the maximum number of sandwiches you can make? Is this enough for everyone at the party? Be sure to show how you got your answer.

6. The method you use when you don’t want to spend too much
STOICHIOMETRY
The method you use when you don’t want to spend too much

7. EXAMPLE – THIS IS ON THE TEST
Look at the following equation – you can talk about it in three different ways:
4Al(s) + 3O2 (g)  2Al2O3 (s)
1. Particles: 4 atoms of Al react with 3 molecules of oxygen gas to form 2 formula units of aluminum oxide.
2. Moles: 4 moles of Al react with 3 moles of oxygen gas to form 2 moles of aluminum oxide.
3. Mass: g Al g O2  g Al2O3
Thanks to the Law of Conservation of Mass, we know that mass must be conserved:
203.92g Al and O2  g Al2O3

8. MOLE RATIOS
The mole ratio is the ratio between the numbers of moles of any two substances in a balanced chemical equation.
These define all the mole relationships in the chemical equation.
4Al(s) + 3O2 (g)  2Al2O3 (s)
4 moles of Al react with 3 moles of oxygen gas to form 2 moles of aluminum oxide.

9. MOLE RATIOS 4Al(s) + 3O2 (g)  2Al2O3 (s) 4 mol Al 3 mol O2
3 mol O2 4 mol Al
2 mol Al2O3 4 mol Al
4 mol Al 2 mol Al2O3
3 mol O2 2 mol Al2O3
2 mol Al2O mol O2
4Al(s) + 3O2 (g)  2Al2O3 (s)

10. STOICHIOMETRY
This is the part of chemistry that deals with the amounts of substances involved in chemical reactions (reactants and products).
Costs for consumer products are kept low because stoichiometric calculations allow scientists to increase efficiency.

11. DEMO
0.01M KMnO4 and 0.01M NaHSO3
1. What is the evidence of a chemical reaction?
2. If I continue to add NaHSO3, what will happen?

12. STOICHIOMETRY
Chemical reactions stop when one of the reactants is used up.
You need to know how many grams of KMnO4 will react with a known mass of NaHSO3.
This is why we have stoichiometry.
Stoichiometry is the study of quantitative relationships between amounts of reactants used and the products formed by a chemical reactions.
MUST START WITH A BALANCED EQUATION!

13. STEPS TO FOLLOW
1. Write down what you know and what you need to find out.
2. Write the balanced chemical equation.
3. Determine the number of moles of the given substance. You may have to convert it from grams to moles.
4. Determine the mole ratio between what is known and what is unknown.
5. Convert the unknown moles to grams if needed.

14. MOLE – MOLE CONVERSIONS
EXAMPLE: How many moles of H2 are produced when mol of Na is reacted with water?
WYK: ?moles H2 from mol Na
EQN: 2Na(s) + 2H2O(l)  2NaOH (aq) + H2 (g)
MOLE RATIO: You already know the moles of the given mol Na
 1 mol H2 : 2 mol Na
SOLVE: mol Na mol H2 = ________mol H2
2 mol Na

15. PRACTICE WYK: EQN: SOLVE:
Aluminum hydroxide is taken to settle upset stomachs. How many moles of stomach acid are neutralized if a tablet of aluminum hydroxide contains moles? The unbalanced equation is Al(OH)3 + HCl  AlCl3 + H2O.
WYK:
EQN:
SOLVE:

16. MOLE – MASS (or MASS– MOLE) CONVERSIONS
Practice: Lithium hydroxide is used aboard spacecraft to remove carbon dioxide from the air. What is the mass of carbon dioxide removed from the craft if the space vehicle carried 42.0 mol LiOH? LiOH + CO2  Li2CO3 + H2O.
WYK:
EQN:
SOLVE:

17. TO DO
Simple Stoichiometry (backside of notes) handout is due tomorrow.
Be sure to list substances, units, and correct significant figures.