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cubical box 1.00 m on a side contains air at 20.0C. (a) What would the pressure inside the box have to be in order for the mean free path of air molecules (assumed to be spheres of radius 2.0 * 10-10 m) to be 1.00 m, so that a typical molecule suffers no collisions with other molecules as it travels the width of the box? (b) How many moles of air would be inside the box at the pressure calculated in part (a)? (At 1 atm pressure, this box would contain 41.4 mol of air.)

cubical box 1.00 m on a side contains air at 20.0C. (a) What would the pressure inside the box have to be in order for the mean free path of air molecules (assumed to be spheres of radius 2.0 * 10-10 m) to be 1.00 m, so that a typical molecule suffers no collisions with other molecules as it travels the width of the box? (b) How many moles of air would be inside the box at the pressure calculated in part (a)? (At 1 atm pressure, this box would contain 41.4 mol of air.)

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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cubical box 1.00 m on a side contains air at 20.0C. (a) What
would the pressure inside the box have to be in order for the mean free
path of air molecules (assumed to be spheres of radius 2.0 * 10-10 m)
to be 1.00 m, so that a typical molecule suffers no collisions with other
molecules as it travels the width of the box? (b) How many moles of air
would be inside the box at the pressure calculated in part (a)? (At 1 atm
pressure, this box would contain 41.4 mol of air.)

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