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Rate of Diffusion of gas into another gas

Rate of Diffusion of gas into another gas. By Elizabeth Kelley Buzbee AAS, RRT-NPS, RCP Kingwood College Respiratory Care Department. Rate of diffusion of gas through another gas is dependent on several factors . Directly proportional to : gradient temperature cross sectional

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Rate of Diffusion of gas into another gas

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  1. Rate of Diffusion of gas into another gas By Elizabeth Kelley Buzbee AAS, RRT-NPS, RCP Kingwood College Respiratory Care Department

  2. Rate of diffusion of gas through another gas is dependent on several factors. • Directly proportional to: • gradient • temperature • cross sectional • Inversely proportional to: • Molecular weight • distant

  3. Remember: we are not talking about if a gas can diffuse or not; we are discussing the rate or speed at which a gas can diffusion into another gas.

  4. Directly proportional to:gradient 100% N2 3% N2 These gases will diffuse quickly because there is such a huge gradient between 100% and 3%.

  5. Directly proportional to:temperature As the temperature rises, the molecules bounce faster

  6. Directly proportional to:temperature Because they bounce faster, they move faster into the new area; diffusion is faster

  7. Directly proportional to: cross sectional Look at the size of these two doors; it is clear that once it is open, more molecules can enter the larger doorway than the smaller one

  8. Directly proportional to: cross sectional the larger the cross section, the faster the gas can diffuse into this area

  9. Inversely proportional to:Molecular weight The more dense molecule such as the ones at the top will not diffuse as quickly as the smaller molecules. Think of a rabbit racing with a bear through the woods. The rabbit can dart in and out of the forest quicker than the bear can lumber along

  10. Inversely proportional to:distant The gas in the larger container will diffusion slower than the gas in the smaller container because the same number of molecules have to traverse more distance

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