Lennard-Jones model: Difference between revisions

Revision as of 16:24, 22 March 2007

The Lennard-Jones potential is given by

V(r)=4\epsilon \left[\left({\frac {\sigma }{r}}\right)^{12}-\left({\frac {\sigma }{r}}\right)^{6}\right]

where:

Reduced units:

Density, $\rho ^{*}\equiv \rho \sigma ^{3}$ , where $\rho =N/V$ (number of particles $N$ divided by the volume $V$ .)

Temperature; $T^{*}\equiv k_{B}T/\epsilon$ , where $T$ is the absolute temperature and $k_{B}$ is the Boltzmann constant

The Lennard-Jones parameters for argon are $\epsilon /k_{B}\approx$ 119.8 K and $\sigma \approx$ 0.3405 nm. (Ref. ?)

This figure was produced using gnuplot with the command:

plot (4*120*((0.34/x)**12-(0.34/x)**6))

@@ Line 17: / Line 17: @@
 * Temperature; <math> T^* \equiv k_B T/\epsilon </math>, where <math> T </math>  is the absolute temperature and <math> k_B </math> is the [[Boltzmann constant]]
 ==Argon==
-The Lennard-Jones parameters for argon are <math>\epsilon/k_B \approx</math>  120 K and <math>\sigma \approx</math>  0.34 nm.
+The Lennard-Jones parameters for argon are <math>\epsilon/k_B \approx</math>  119.8  K and <math>\sigma \approx</math>  0.3405 nm. (Ref. ?)
 [[Image:Lennard-Jones.png|center]]
 This figure was produced using [http://www.gnuplot.info/ gnuplot] with the command: