ms wrote:
On 29/08/10 19:39, Justin A. Lemkul wrote:
When dividing the energy of a system by the number of molecules (in a
homogeneous system), you are extracting what I believe is commonly
referred to as "configurational energy" which, for relatively simple
systems, should converge fairly quickly. The reason your total energy
values increase with system size is a simple matter of potential energy.
More interactions mean that the magnitude of the potential will
increase, and likewise with the kinetic energy, more particles that have
velocity imply a greater sum.
You can convince yourself of this fact by running relatively short
simulations of water boxes, using, i.e. spc216.gro and then a larger
construct from it. Within a few hundred ps, you should get reasonably
converged configurational energies, though of course the total energy
will be larger simply by virtue of the system size.
Energies are in kJ/mol, no question. The extrapolation would be that a
mole of a given species in the given configuration would have this
energy in kJ. For a single molecule, the energy is whatever value you
obtain divided by Avogadro's number, which is a relatively unimportant
quantity if you are interested in bulk dynamics.
Wait, now I am confused too.
I always understood that energy was meant as kJ/mol for a mol of my
*system*, that is, if I have a box with 10 identical molecules, then I
g_energy gives me out the energies of that *box*.
Is it wrong?
No, exactly as I have explained in the follow-up message to this post. I was
trying to tie this concept into the OP's original observations and attempts to
quantify his results with respect to energetics of individual molecules.
-Justin
m.
--
========================================
Justin A. Lemkul
Ph.D. Candidate
ICTAS Doctoral Scholar
MILES-IGERT Trainee
Department of Biochemistry
Virginia Tech
Blacksburg, VA
jalemkul[at]vt.edu | (540) 231-9080
http://www.bevanlab.biochem.vt.edu/Pages/Personal/justin
========================================
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