The mean free path A and the mean collision time t of the molecules of a diatomic gas of molecular mass 6.00 x 10-25 kg and radius r = 1.0 x 10-10 m are measured. From these microscopic data can we obtain macroscopic properties such as temperature T and pressure P? If so, consider A = 4.32 x 10-8 m and t = 3.00 x 10-1º s and calculate T and P. It's not possible Yes, T =150 K and P - 2.04 atm. Yes, T = 150 K and P ~ 4.08 atm. Yes, T = 300 K and P - 4.08 atm. Yes, T = 300 K and P - 5.32 atm Yes, T = 400K and P - 4.08 atm. Yes, T = 400 K and P - 5.32 atm. %3D
The mean free path A and the mean collision time t of the molecules of a diatomic gas of molecular mass 6.00 x 10-25 kg and radius r = 1.0 x 10-10 m are measured. From these microscopic data can we obtain macroscopic properties such as temperature T and pressure P? If so, consider A = 4.32 x 10-8 m and t = 3.00 x 10-1º s and calculate T and P. It's not possible Yes, T =150 K and P - 2.04 atm. Yes, T = 150 K and P ~ 4.08 atm. Yes, T = 300 K and P - 4.08 atm. Yes, T = 300 K and P - 5.32 atm Yes, T = 400K and P - 4.08 atm. Yes, T = 400 K and P - 5.32 atm. %3D
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Transcribed Image Text:The mean free path A and the mean collision
time t of the molecules of a diatomic gas of
molecular mass 6.00 × 10-25 kg and radius r =
1.0 x 10-10 m are measured. From these
microscopic data can we obtain macroscopic
properties such as temperature T and
pressure P? If so, consider A = 4.32 x 10-8 m
and t = 3.00 x 10-10 s and calculate T and P.
It's not possible
Yes, T =150 K and P - 2.04 atm.
Yes, T = 150 K and P - 4.08 atm.
Yes, T = 300 K and P
Yes, T = 300 K and P - 5.32 atm
Yes, T = 400 K and P ~ 4.08 atm.
Yes, T = 400 K and P - 5.32 atm.
4.08 atm.
%3D
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