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WELCOME! Lab notebooks out! Sit wherever you’d like. (Wooden tables must be filled)

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Presentation on theme: "WELCOME! Lab notebooks out! Sit wherever you’d like. (Wooden tables must be filled)"— Presentation transcript:

1 WELCOME! Lab notebooks out! Sit wherever you’d like. (Wooden tables must be filled)

2 WARM-UP What were the 3 conversion factors you learned in the moles unit? How did you figure out each one? (very brief) A furry mole rat

3 UNIT 6: STOICHIOMETRY Derived from the Greek words:Greek στοιχείον  stoikheion = elementelement + μέτρον  metron = measuremeasure

4 WHY STOICHIOMETRY? You’ve learned how to convert between g, moles, molecules, and atoms of ONE element or compound (not that useful) How can we convert between two elements or compounds?  How much of each ingredient do I need to make a bottle of Vitamin Water, can of Axe Body Spray, tube of lip gloss?

5 THE HAMBURGER ANALOGY My recipe for a bacon double cheeseburger is: 1 hamburger bun 2 hamburger patties 3 slices of cheese 4 strips of bacon 1bun + 2patties + 3cheese + 4bacon 1 BD-cheeseburger

6 1BUN + 2PATTIES + 3CHEESE + 4BACON 1 BD-CHEESEBURGER If I have 5 bacon double cheeseburgers:  How many hamburger buns do I have?  How many hamburger patties do I have?  How many slices of cheese do I have?  How many strips of bacon do I have? Solve with dimensional analysis!!!!!!!

7 THE HAMBURGER ANALOGY 1bun + 2patties + 3cheese + 4bacon 1 BDcheeseburger If I have 1 bun, 2 patties, 3 slices of cheese and 4 strips of bacon, how many BDcheeseburgers can I make? If I have 1 dozen buns, 2 dozen patties, 3 dozen slices of cheese and 4 dozen strips of bacon, how many BDcheeseburgers can I make?

8 EQUATION = A CHEMISTRY RECIPE! CO (g) + 2H 2 (g)  CH 3 OH (g)  Recipe with Molecules:  1 molecule of CO plus 2 molecules of H 2 will produce 1 molecule of CH 3 OH  Recipe with Dozen of Molecules:  1 dozen molecules of CO plus 2 dozen molecules of H 2 will produce 1 dozen molecules of CH 3 OH  Recipe with Moles:  1 mole of CO plus 2 moles of H 2 will produce 1 mole of CH 3 OH

9 CO (G) + 2H 2 (G)  CH 3 OH (G) What do the coefficients in an equation tell you about the reactants and products? THE MOLE RATIO! Ratio of reactants used : products made 1: 2 :1 Can be used to make Predictions ! Forwards  or  Backwards.

10 WHAT DO THE COEFFICIENTS “MEASURE”? Can Represent Moles, Molecules, and Atoms, But not grams!!! But not grams!!! … because different atoms have different weights. … because different atoms have different weights.

11 CO (G) + 2H 2 (G)  CH 3 OH (G) 1. How many moles of CH 3 OH would be produced if you started with 4 moles of H 2 ? 4mol H 2 x 1 mol CH 3 OH = 2 mol CH3OH 2 mol H 2 2. Backwards: How many moles of CO would you need if you wanted to produce 5 moles of CH 3 OH? 3. Forwards: If you had 3.5 moles of H 2 how many moles of CO would you need to react with it?

12 UNKNOWN CARBONATE LAB You will discover the identity of the unknown carbonate (either X 2 CO 3 ) by using mole ratios!  What must be the charge on the unknown metal?  How do you know that? Let’s do the pre-lab! We will check answers in a few minutes! X 2 CO 3(aq) + 2 HCl (aq)  2 XCl (aq) + CO 2(g) + H 2 O (l)

13 UNKNOWN CARBONATE LAB Once you have at least 1 trial, go to two other groups and swap data so that you have a total of 2 trials. Wear goggles when dealing with HCl! You can pour the results down the sink when finished. X 2 CO 3(aq) + 2 HCl (aq)  2 XCl (aq) + CO 2(g) + H 2 O (l)

14 PROCESS OF CALCULATIONS (#3-8) Mass of CO 2 Moles of CO 2 Moles of X 2 CO 3 Molar Mass of X 2 CO 3 Mass of X Identity of X Identity of X Use Molar Mass! Use Mole Ratios! Use Proportions! Subtract out the CO3! Use Mass # on Per. Table!

15 UNKNOWN CARBONATE LAB WRAP-UP: X 2 CO 3(aq) + 2 HCl (aq)  2 XCl (aq) + CO 2(g) + H 2 O (l) 1. What does the charge of X have to be? 2. If the Mass of flask + X 2 CO 3 + HCl = 112.16 g and Mass of flask and reacted solution = 111.48 g, How many grams of CO 2 were released? 3. How many moles of X 2 CO 3 were reacted? 4. If you actually started with 2.02 g of X 2 CO 3, what is the mass of X & what element is it?

16 EXIT TASK Consider this equation for respiration: C 6 H 12 O 6 + 6O 2  6CO 2 + 6H 2 0 If I have 3 mol of C 6 H 12 O 6, how many mol of CO 2 will I make? Homework: Finish Lab WoC read 9.1-9.2 Pg. 282 #5-7, 9-12

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