A container with volume 0.2 m² contains of 2.5 moles of oxygen gas. Given that the molar mass of oxygen molecule is 32 g/mol and the most probable speed is 576 m/s. Consider the gas as an ideal gas, find (a) the root-mean-square speed of each molecule. (b) the temperature of the oxygen gas, (c) the pressure of the oxygen gas, (d) the number of mole of molecules which the speed is in the range of 400-420 m/s. Mu2 v?e 2RT Maxwell distribution function P(v) = 4n 2nRT
A container with volume 0.2 m² contains of 2.5 moles of oxygen gas. Given that the molar mass of oxygen molecule is 32 g/mol and the most probable speed is 576 m/s. Consider the gas as an ideal gas, find (a) the root-mean-square speed of each molecule. (b) the temperature of the oxygen gas, (c) the pressure of the oxygen gas, (d) the number of mole of molecules which the speed is in the range of 400-420 m/s. Mu2 v?e 2RT Maxwell distribution function P(v) = 4n 2nRT
Chemistry by OpenStax (2015-05-04)
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Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
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Chapter9: Gases
Section: Chapter Questions
Problem 78E: One molecule of hemoglobin will combine with four molecules of oxygen. If 1.0 g of hemoglobin...
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![A container with volume 0.2 m² contains of 2.5 moles of oxygen gas. Given that the molar
mass of oxygen molecule is 32 g/mol and the most probable speed is 576 m/s. Consider the gas
as an ideal gas, find
(a) the root-mean-square speed of each molecule.
(b) the temperature of the oxygen gas,
(c) the pressure of the oxygen gas,
(d) the number of mole of molecules which the speed is in the range of
400-420 m/s.
Mu2
v?e 2RT
Maxwell distribution function P(v) = 4n
2nRT](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Faaeff940-6ac1-4af9-8957-dceb6e76e692%2F36daeffa-da07-464b-b4b1-bb4ccca2e95f%2F31kbz8k_processed.png&w=3840&q=75)
Transcribed Image Text:A container with volume 0.2 m² contains of 2.5 moles of oxygen gas. Given that the molar
mass of oxygen molecule is 32 g/mol and the most probable speed is 576 m/s. Consider the gas
as an ideal gas, find
(a) the root-mean-square speed of each molecule.
(b) the temperature of the oxygen gas,
(c) the pressure of the oxygen gas,
(d) the number of mole of molecules which the speed is in the range of
400-420 m/s.
Mu2
v?e 2RT
Maxwell distribution function P(v) = 4n
2nRT
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