Air is approximately 80 mol% Nitrogen (M=28kg/kmol) and 20 mol% Oxygen (M = 32kg/kmol). Consider a rigid container of volume 183.4 liters that contains air at P = 2 atm.Throughout this problem, the temperature of the container is maintained fixed and equal to 25 °C. Use the ideal gas law to answer the following questions (R=0.082 m³.atm/kmol.K): Determine the number of moles of N₂ and of O₂ in the container. N₂ = 4 mol, O₂ = 1 mol N₂ = 8 mol, O₂ = 2 mol N₂ = 12 mol, O₂ = 3 mol N₂ = 16 mol, O₂ = 4 mol
Air is approximately 80 mol% Nitrogen (M=28kg/kmol) and 20 mol% Oxygen (M = 32kg/kmol). Consider a rigid container of volume 183.4 liters that contains air at P = 2 atm.Throughout this problem, the temperature of the container is maintained fixed and equal to 25 °C. Use the ideal gas law to answer the following questions (R=0.082 m³.atm/kmol.K): Determine the number of moles of N₂ and of O₂ in the container. N₂ = 4 mol, O₂ = 1 mol N₂ = 8 mol, O₂ = 2 mol N₂ = 12 mol, O₂ = 3 mol N₂ = 16 mol, O₂ = 4 mol
Chemistry: Matter and Change
1st Edition
ISBN:9780078746376
Author:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Publisher:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom
Chapter13: Gases
Section: Chapter Questions
Problem 96A
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Transcribed Image Text:Air is approximately 80 mol % Nitrogen (M=28kg/kmol) and 20 mol % Oxygen (M =
32kg/kmol). Consider a rigid container of volume 183.4 liters that contains air at P =
2 atm. Throughout this problem, the temperature of the container is maintained fixed
and equal to 25 °C. Use the ideal gas law to answer the following questions
(R=0.082 m³.atm/kmol.K):
Determine the number of moles of N₂ and of O₂ in the container.
N₂ = 4 mol, O₂ = 1 mol
N₂ = 8 mol, O₂ = 2 mol
N₂ 12 mol, O₂ = 3 mol
N₂ = 16 mol, O₂ = 4 mol
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