Critical Pressure and Temperature of a van der Waals Gas

AI Thread Summary
The discussion focuses on deriving the critical temperature and pressure of a van der Waals gas using its equation of state. The critical temperature is expressed as T_{cr} = (8a)/(27bR) and the critical pressure as P_{cr} = a/(27b^2). Participants note that the P versus V curve has an inflection point at the critical point, requiring the first and second derivatives to be zero. There is some confusion regarding the correct derivatives, with participants clarifying that they should be dP/dV = 0 and d^2P/dV^2 = 0. Overall, the conversation emphasizes the mathematical approach needed to solve for these critical values.
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Homework Statement


From the van der Waals equation of state, show that the critical temperature and pressure are given by

T_{cr} = \frac{8a}{27bR}

P_{cr} = \frac{a}{27b^2}

Hint: Use the fact that the P versus V curve has an inflection point at the critical point so that the first and second derivatives are zero.

Homework Equations


P = \frac{RT}{V/n - b} - \frac{a}{(V/n)^2}

The Attempt at a Solution


The first and second derivative have powers of V greater than 2. Unfortunately I don't have the skills to solve for dp/dt = 0 or d^2p/dt^2 = 0. Perhaps there's a simpler way?
 
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e(ho0n3 said:
The first and second derivative have powers of V greater than 2. Unfortunately I don't have the skills to solve for dp/dt = 0 or d^2p/dt^2 = 0. Perhaps there's a simpler way?

Err, that should be dP/dV = 0 and d^2P/dV^2 = 0.
 
Just for reference,

\frac{dP}{dV} = \frac{-RT}{n(V/n - b)^2}

\frac{d^2P}{dV^2} = \frac{2RT}{n^2(V/n - b)^3}
 
http://www.chem.arizona.edu/~salzmanr/480a/480ants/vdwcrit/vdwcrit.html

A good website with complete calculation
 

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