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Section 11.3 – Stoichiometry of Gases

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1 Section 11.3 – Stoichiometry of Gases

2 Stoichiometry The quantitative analysis of substances involved in chemical reactions.

3 Gay-Lussac and Avogadro
We use their discoveries to calculate the coefficients in chemical reactions involving gases.

4 The Coefficients Represent
The volume ratios of the gases involved, as well as the molar amounts and mole ratios. What are the possible volume ratios for this reaction?

5 Volume-Volume Calculations
We assume that the volumes of both the reactants and products exist under the same temperature and pressure conditions.

6 Sample Problem #1 The complete combustion of propane:
C3H8(g) + 5O2(g) → 3CO2(g) + 4H2O(g)

7 What Will Be The Volume, In Liters,
A. Of oxygen required for the complete combustion of L of propane? B. Of carbon dioxide produced in the reaction?

8 Other Calculations Require
The conditions under which the gas volumes were measured.

9 Volume-Mass Calculations
gas volume A → moles A → moles B → mass B

10 Sample Problem #2 How many grams of calcium carbonate must be heated to produce 5.00L of carbon dioxide gas at STP? CaCO3(s) → CaO(s) + CO2(g)

11 Mass-Volume Calculations
mass A → moles A → moles B → gas volume B

12 Sample Problem #3 How many liters of hydrogen gas at 35°C and atm are needed to react completely with 875 g of tungsten oxide? WO3(s) + 3H2(g) → W(s) + 3H2O(l)

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