Algebraic cycle: Difference between revisions

Revision as of 15:24, 22 May 2013

In statistical mechanics and thermodynamics the compressibility equation refers to an equation which relates the isothermal compressibility (and indirectly the pressure) to the structure of the liquid. It reads:

$kT\left({\frac {\partial \rho }{\partial p}}\right)=1+\rho \int dr[g(r)-1]$ (1)

where $\rho$ is the number density, g(r) is the radial distribution function and $kT\left({\frac {\partial \rho }{\partial p}}\right)$ is the isothermal compressibility.

Using the Fourier representation of the Ornstein-Zernike equation the compressibility equation (1) can be rewritten in the form:

${\frac {1}{kT}}\left({\frac {\partial p}{\partial \rho }}\right)={\frac {1}{1+\rho \int h(r)d{\rm {r}}}}={\frac {1}{1+\rho {\hat {H}}(0)}}=1-\rho {\hat {C}}(0)=1-\rho \int c(r)d{\rm {r}}$ (2)

where h(r) and c(r) are the indirect and direct correlation functions respectively. The compressibility equation is one of the many integral equations in statistical mechanics.

References

D.A. McQuarrie, Statistical Mechanics (Harper Collins Publishers) 1976

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+In [[statistical mechanics]] and [[thermodynamics]] the '''compressibility equation''' refers to an equation which relates the isothermal [[compressibility]] (and indirectly the pressure) to the structure of the liquid. It reads:
+<center>
+<math>kT\left(\frac{\partial \rho}{\partial p}\right)=1+\rho \int d r [g(r)-1] </math>    (1)
+</center>
+where <math>\rho</math> is the number density, g(r) is the [[radial distribution function]] and <math>kT\left(\frac{\partial \rho}{\partial p}\right)</math> is the isothermal [[compressibility]].
+Using the Fourier representation of the [[Ornstein-Zernike equation]] the compressibility equation (1) can be rewritten in the form:
+<center>
+<math>\frac{1}{kT}\left(\frac{\partial p}{\partial \rho}\right) = \frac{1}{1+\rho \int h(r) d \rm{r}}=\frac{1}{1+\rho \hat{H}(0)}=1-\rho\hat{C}(0)=1-\rho \int c(r) d \rm{r} </math>    (2)
+</center>
+where h(r) and c(r) are the indirect and direct correlation functions respectively. The compressibility equation is one of the many [[integral equations]] in [[statistical mechanics]].
+==References==
+#D.A. McQuarrie, Statistical Mechanics (Harper Collins Publishers) 1976
+[[Category:Statistical mechanics]]
+[[Category:Thermodynamic equations]]

Algebraic cycle: Difference between revisions

Revision as of 15:24, 22 May 2013

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