How to approach this Brownian Motion Problems

xiaozegu
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Why do you think there's a difference? Isn't it just the universal gas constant in both cases?
 
clamtrox said:
Why do you think there's a difference? Isn't it just the universal gas constant in both cases?

Is Bolye's law's Ra equal to the R in the PV=NRT?
Bolye's law is PV = RaT
 
xiaozegu said:
Is Bolye's law's Ra equal to the R in the PV=NRT?
Bolye's law is PV = RaT

Sorry, but that's gibberish. Read more carefully what is done.

The ideal gas law is PV = nRT, where n is the number of moles of gas, V is volume, p is pressure, T is temperature and R is the gas constant.

The form used in the book you quote has instead v = V/n, volume per mole, and reads Pv = RT.
 
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clamtrox said:
Sorry, but that's gibberish. Read more carefully what is done.

The ideal gas law is PV = nRT, where n is the number of moles of gas, V is volume, p is pressure, T is temperature and R is the gas constant.

The form used in the book you quote has instead v = V/n, volume per mole, and reads Pv = RT.

Thanks. But I still do not know how to interpret the n and n0 in the after equation. Isn't n is 1 mol?
 

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