Problem 1.14. Calculate the mass of a mole of dry air, which is a mixture of N2 (78% by volume), O2 (21%), and argon (1%).
Problem 1.14. Calculate the mass of a mole of dry air, which is a mixture of N2 (78% by volume), O2 (21%), and argon (1%).
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![Problem 1.14. Calculate the mass of a mole of dry air, which is a mixture of N2
(78% by volume), 02 (21%), and argon (1%).
2. Construct a mental "model" of a container full gas to describe how, exactly, is
temperature related to energy? Use the Macroscopic Model of an Ideal Gas. Precisely,
you want to know how the temperature of a gas is related to the kinetic energy of the
molecules it contains.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe17d9f61-1ede-472a-ad92-56377997e23c%2F12383796-671a-4d04-af0a-b9fc1bde4570%2Fdeeurie_processed.png&w=3840&q=75)
Transcribed Image Text:Problem 1.14. Calculate the mass of a mole of dry air, which is a mixture of N2
(78% by volume), 02 (21%), and argon (1%).
2. Construct a mental "model" of a container full gas to describe how, exactly, is
temperature related to energy? Use the Macroscopic Model of an Ideal Gas. Precisely,
you want to know how the temperature of a gas is related to the kinetic energy of the
molecules it contains.
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