Unspecified gas, preasure known, looking for number density.

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SUMMARY

The discussion focuses on calculating the number density and mean free path of air molecules in a vacuum chamber with a pressure of 7.00×10−11 mm of Hg at a temperature of 21.0°C. The pressure is converted to Pascals as 9.33 x 10−9 Pa. The relevant equations include the ideal gas law, pV = NkT, where p is pressure, V is volume, N is the number of molecules, k is the Boltzmann constant, and T is temperature. The participants confirm that assuming a volume of one cubic meter is appropriate for calculating number density.

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  • Understanding of the ideal gas law (pV = NkT)
  • Knowledge of the Boltzmann constant
  • Ability to convert pressure units (mm of Hg to Pa)
  • Familiarity with concepts of number density and mean free path
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  • Research the calculation of mean free path using the formula λ = kT / (√2 * π * d2 * P)
  • Learn about the properties of air and its molecular mass for accurate calculations
  • Explore the implications of low-pressure environments on gas behavior
  • Study the relationship between temperature and molecular velocity in gases
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Students in physics or engineering fields, particularly those studying thermodynamics or fluid dynamics, as well as professionals working with vacuum systems and gas behavior analysis.

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Homework Statement



Integrated circuits are manufactured in vacuum chambers in which the air pressure is 7.00×10^(−11) mm of Hg. What are (a) the number density and (b) the mean free path of a molecule? Assume T = 21.0 C.

I've double checked, this is all the information available. Quoted verbatim.

Homework Equations



101,300 Pa = 760 mm of HG. I was able to figure the pressure in Pa. Pa = 9.33 x 10^(-9).

I've seen various equations involving pressure and N (number density), but they all involve volume and other variables. p = (1/3)(N/V)(m)(v)^2 where v is the RMS velocity. I don't know the m value for "air", etc. I know N will be the number of molecules per cube meter.

The Attempt at a Solution



I figured the pressure in Pa, but I don't know which formula to use when they all seem to have several unknowns. Am I missing something, or is the question not specific enough?

Thanks.
 
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Ok. I see that pV = NkT. Where k is Boltzzmans (sp?) constant. T is temperature. Etc.

I suppose I just assume that V is a cubic meter, since the units of number density are molecules per cubic meter?
 
Yes, you are on the right track. k is the Boltzmann constant, and you need the number of molecules in one cubic meter.

ehild
 

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