5880 grams of paraffin wax, C25H52 are burned in excess oxygen at 520°C in a rigid 150 Liter container according to the following equation: C25H52 + + O2 (g) → CO2 (g) + H2O(g) a) Balance the equation b) Calculate the pressure of carbon dioxide gas when the reaction goes to completion c) Calculate the pressure of water vapor when the reaction goes to completion

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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show clear work for a, b, c, d and e please
5880 grams of paraffin wax, C25H52 are burned in excess oxygen at 520°C in a rigid 150 Liter
container according to the following equation:
C25H52 + O2 (g) →
>
CO2 (8) +
H2O(g)
a) Balance the equation
b) Calculate the pressure of carbon dioxide gas when the reaction goes to completion
c) Calculate the pressure of water vapor when the reaction goes to completion
d) If there are 18.55 moles of oxygen gas left over in the container along with the carbon dioxide
and water vapor when the reaction gocs to completion, what is the total pressure of the system?
e) The rigid container is opened, explain which gas is going to effuse faster, water vapor or
oxygen gas? Prove mathematically how much faster.
Transcribed Image Text:5880 grams of paraffin wax, C25H52 are burned in excess oxygen at 520°C in a rigid 150 Liter container according to the following equation: C25H52 + O2 (g) → > CO2 (8) + H2O(g) a) Balance the equation b) Calculate the pressure of carbon dioxide gas when the reaction goes to completion c) Calculate the pressure of water vapor when the reaction goes to completion d) If there are 18.55 moles of oxygen gas left over in the container along with the carbon dioxide and water vapor when the reaction gocs to completion, what is the total pressure of the system? e) The rigid container is opened, explain which gas is going to effuse faster, water vapor or oxygen gas? Prove mathematically how much faster.
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