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Ideal Gas Equation PV=nRT Practice Problems

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Presentation on theme: "Ideal Gas Equation PV=nRT Practice Problems"— Presentation transcript:

1 Ideal Gas Equation PV=nRT Practice Problems

2 2 AlCl3  2 Al + 3 Cl2 ↑ If 13 g of aluminum chloride react, what volume of chlorine gas will be collected at 25°C and 1.15 atm? Plan of action:

3 2 Na + H2SO4  Na2SO4 + H2 ↑ If 3.5 g of sodium react, what pressure of hydrogen gas will result in a 250 mL container at 35°C? Plan of action:

4 F KBr  2 KF + Br2 If 1.0 L of fluorine gas measured at 22°C at 0.95 atm reacts, how many grams of potassium fluoride will be produced? Plan of action:

5 2 H2 + O2  2 H2O If 3.5 L of oxygen gas measured at 42°C at 1.25 atm reacts, how many grams of water will be produced? Plan of action:

6 2 KNO3  2 KNO2 + O2 ↑ When 36 g of potassium nitrate decompose, what volume of oxygen gas is collected at 39°C and 2.3 atm pressure? Plan of action:

7 2 Ca + O2  2 CaO In order to react 58 g of calcium, what pressure of oxygen gas at 42°C in a 6.0 L container is needed? Plan of action:

8 3 Ca + 2 H3PO4  Ca3(PO4)2 + 3 H2 ↑ If 9.5 g of calcium phosphate are produced, what volume of hydrogen gas at 77°C and 0.88 atm pressure is also produced? Plan of action:

9 2 H2 + O2  2 H2O Let’s try some excess-limiting:
When 4.7 L of hydrogen gas at 3.2 atm and 13°C are reacted with 3.6 L of oxygen gas at 2.9 atm and 12°C, what mass of water is produced? Plan of action: Use P,V,T to find n of H2 & O2 Use mole ratio to find Limiting Reactant Use Limiting to find mass of H2O HAVE NEED Limiting

10 N2 + 3 H2  2 NH3 ↑ Here is more excess-limiting:
When 2.2 L of nitrogen gas at 6.8 atm and 358°C are reacted with 9.6 L of hydrogen gas at 7.4 atm and 419°C, what mass of ammonia is produced? Plan of action: Use P,V,T to find n of N2 & H2 Use mole ratio to find Limiting Reactant Use Limiting to find mass of NH3 HAVE Limiting NEED

11 C6H12O6 + 6O2  6CO2 + 6H2O And now, volume-volume:
When 8.0 L of oxygen gas at 0.98 atm and 25°C are reacted with sugar as shown, what volume of CO2 is produced at 37°C and 0.98 atm pressure? Plan of action:

12 C3H8 + 5O2  3CO2 + 4H2O More volume-volume:
When 14 L of propane at 9.0 atm and 25°C are combusted with oxygen as shown, what volume of CO2 is produced at 40°C and 0.92 atm pressure? Plan of action:

13 2ZnS + 3O2  2SO2 ↑ + 2ZnO More, volume-volume:
When 15 L of oxygen gas at 2.6 atm and 55°C are reacted as shown, what volume of sulfur dioxide gas is produced at 65°C and 1.7 atm pressure? Plan of action:

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