1 A Station Mendeleev nickel III carbonate 1

1 A Station Mendeleev- nickel (III) carbonate 1. I or C & Formula _____ 2. Calculate the molar mass of nickel (III) carbonate

1 B Station Mosely- nickel (III) carbonate 1. What type of particle is the compound? 2. You have 42. 3 grams of nickel (III) carbonate. How many moles is this?

2 A Station Dalton- copper (I) phosphate 1. I or C & Formula _____ 2. How many particles are in 1 mole of copper (I) phosphate

2 B Station Lavosier- copper (I) phosphate 1. What type of particle is this compound? 2. How many of the above particles are in 8. 65 mols of copper (I) phosphate?

3 A Station Charles- acetylsalicylic acid (aspirin) 1. I or C & Formula C 9 H 8 O 4 2. Calculate the molar mass of aspirin.

3 B Station Boyle- acetylsalicylic acid (aspirin) 1. What type of particle is this compound? 2. The manufacturer puts 6. 02 moles of aspirin in each bottle for mole day. How many grams are in each bottle?

4 A Station Pauling- Rubidium sulfate 1. I or C & Formula _____ 2. What type of particles compose this compound? 3. How many particles are in 1 mole of rubidium sulfate?

4 B Station Seaborg- Rubidium sulfate 1. Calculate the molar mass of rubidium sulfate 2. If Seaborg has 8. 09 x 1024 formula units of the compound, how many moles of the compound does he have?

5 A Station Einstein- iron (II) hydroxide 1. I or C & Formula ______ 2. Calculate the molar mass of iron (II) hydroxide. 3. How many particles are in 1 mole of iron (II) hydroxide?

5 B Station Schrodinger- iron (II) hydroxide 1. What type of particle is this compound? 2. A piece of metal rusts to produce 63. 2 grams of iron (II) hydroxide. How many moles of rust are produced?

6 A Station Kelvin- lithium dichromate 1. I or C & Formula _____ 2. Calculate the molar mass of lithium dichromate.

6 B Station Celsius lithium dichromate 1. How many particles are in 1 mole of lithium dichromate? 2. Celsius has 6. 42 moles of the lithium dichromate in a vial. How many particles of the compound does he have?

7 A Station Democritus- Caffeine 1. I or C & Formula C 8 H 10 N 4 O 2 2. How many particles are in 1 mole of caffeine? 3. Calculate the molar mass of caffeine.

7 B Station Aristotle- Caffeine 1. You isolated have 5. 902 moles of caffeine from coffee beans after roasting them. How many grams of caffeine do you have? 2. From your grams of caffeine, what is the mass of nitrogen in your sample? (Hint: use percent composition)

8 A Station Bohr- silver cyanide 1. I or C & Formula _____ 2. Calculate the molar mass of silver cyanide

8 B Station Aufbau- silver cyanide 1. What type of particle is the compound? 2. You have 83. 54 grams of silver cyanide. How many moles is this?

9 A Station Hund-magnesium nitrate 1. I or C & Formula _____ 2. How many particles are in 1 mole of magnesium nitrate

9 B Station Pauli- magnesium nitrate 1. What type of particle is this compound? 2. How many of the above particles are in 9. 301 mols of magnesium nitrate?

10 A Station Faraday- Methamphetamine 1. I or C & Formula: C 10 H 15 N 2. Calculate the molar mass of methamphetamine.

10 B Station Heisenberg- Methamphetamine 1. What type of particle is this compound? 2. If 5. 04 moles of methamphetamine is crystalized how many grams are produced?

11 A Station Haber- calcium chromate 1. I or C & Formula _____ 2. What type of particles compose this compound? 3. How many particles are in 1 mole of calcium chromate?

11 B Station Hanh- calcium chromate 1. Calculate the molar mass of calcium chromate 2. If Hanh has 4. 53 x 1023 formula units of the compound, how many moles of the compound does he have?

12 A Station Sanger- tungsten (II) chlorate 1. I or C & Formula ______ 2. Calculate the molar mass of tungsten (II) chlorate. 3. How many particles are in 1 mole of tungsten (II) chlorate?

12 B Station Tyson- tungsten (II) chlorate 1. What type of particle is this compound? 2. Tungsten (II) chlorate acts as an electrode in a battery. If 3. 06 x 103 grams of tungsten (II) chlorate are needed to make an electrode, how many moles do you need?

13 A Station Thomson- sodium phosphate 1. I or C & Formula _____ 2. Calculate the molar mass of sodium phosphate.

13 B Station Rutherford- sodium phosphate 1. How many particles are in 1 mole of sodium phosphate? 2. Rutherford has 3. 02 x 1026 formula units of the sodium phosphate in a vial. How many moles of the compound does he have?

14 A Station Planck- antimony (I) sulfate 1. I or C & Formula: 2. How many particles are in 1 mole of antimony (I) sulfate? 3. Calculate the molar mass of antimony (I) sulfate.

14 B Station Arrhenius - antimony (I) sulfate 1. You isolated have 5. 902 moles of antimony (I) sulfate, how many grams of the compound do you have? 2. From your grams of compound, what is the mass of oxygen in your sample? (Hint: use percent composition)

15 A Station Hawking- aluminum carbonate 1. I or C & Formula _____ 2. Calculate the molar mass of aluminum carbonate

15 B Station Sheldon Cooper-aluminum carbonate 1. What type of particle is the compound? 2. You have 20. 10 grams of aluminum carbonate. How many moles is this? **Go to station 1 **