P1. Consider a gas of oxygen atoms (µ0, = 32 g/mol). What should the temperature of the gas be for the mean square speed of the atoms to be v = 100 m/s? While keeping the temperature the same as before, what should the pressure of the gas be for a container of volume V = 51 to be able to contain m =1 kg of oxygen? How much does the temperature of the gas increase if the container is dropped on the ground at a speed of u = 2 m/s? You may neglect thermal conduction with the outside.
P1. Consider a gas of oxygen atoms (µ0, = 32 g/mol). What should the temperature of the gas be for the mean square speed of the atoms to be v = 100 m/s? While keeping the temperature the same as before, what should the pressure of the gas be for a container of volume V = 51 to be able to contain m =1 kg of oxygen? How much does the temperature of the gas increase if the container is dropped on the ground at a speed of u = 2 m/s? You may neglect thermal conduction with the outside.
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Transcribed Image Text:P1. Consider a gas of oxygen atoms (H0, = 32 g/mol). What should the temperature of
the gas be for the mean square speed of the atoms to be v = 100 m/s? While keeping the
temperature the same as before, what should the pressure of the gas be for a container of
volume V = 51 to be able to contain m = 1 kg of oxygen? How much does the temperature
of the gas increase if the container is dropped on the ground at a speed of u = 2 m/s? You
may neglect thermal conduction with the outside.
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