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Topic: Derivation of thermal expansion coefficient for function.  (Read 2859 times)

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Offline TA1LGUNN3R

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Derivation of thermal expansion coefficient for function.
« on: October 08, 2014, 08:58:42 PM »
I need to derive αP and κT for a gas obeying Z(ρ,T)=1+B2ρ+B3ρ.

κT I can find, but I'm having problems with the calculus of αP.  I know:


[tex]\frac {P}{\rho RT}=1+B_2 \rho+B_3 \rho^2[/tex]

I then isolate for T and take [itex]\frac {\partial T}{\partial \rho}[/itex] and get:

[tex](\frac {\partial T}{\partial \rho})_P [\frac {P}{R}*\frac {1}{\rho+B_2 \rho^2+B_3 \rho^3}]=\frac {-(1+B_2 \rho+B_3 \rho^2)}{(\rho+B_2 \rho^2+B_3 \rho^3)^2}[/tex]

Now, to solve for αT, I would flip the equation for dρ/dT, and multiply by (-1/ρ), since αT=[itex]\frac {-1}{\rho}*(\frac {\partial \rho}{\partial T})_P[/itex]

However, I think that looks kinda ugly.  Is this wrong? 




Offline mjc123

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Re: Derivation of thermal expansion coefficient for function.
« Reply #1 on: October 09, 2014, 05:38:32 AM »
I think the numerator on the RHS should be -(1+2B2ρ+3B3ρ2).
Would it simplify things to equate the denominator to (P/RT)2?

Offline TA1LGUNN3R

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Re: Derivation of thermal expansion coefficient for function.
« Reply #2 on: October 09, 2014, 08:02:32 PM »
Yes, in my haste I forgot to type in the coefficients to u'.  I also left out the P/R factor.

Okay, so fixing those, I should get:

[tex](\frac {\partial T}{\partial \rho})_P = \frac {-(T^2 R(1+2B_3 \rho+3B_3 \rho^2)}{P}[/tex]

which implies

[tex]\alpha_P=\frac {P \rho}{T^2 R(1+2B_2 \rho+3B_3 \rho^2)}[/tex]

Doing a unit check, I come up with units of mol2/L2 per K.  I guess this sounds right? 



Offline mjc123

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Re: Derivation of thermal expansion coefficient for function.
« Reply #3 on: October 10, 2014, 05:19:58 AM »
No, the factor ρ should be on the bottom, then the units are K-1.

Offline TA1LGUNN3R

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Re: Derivation of thermal expansion coefficient for function.
« Reply #4 on: October 10, 2014, 02:43:13 PM »
aargh I don't know why I multiplied by ρ instead of 1/ρ.  Dumb mistake.

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