United-atom model: Difference between revisions
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the carbon atoms and are not expressed explicitly. Many [[force fields]] | the carbon atoms and are not expressed explicitly. Many [[force fields]] | ||
make use of this approximation in order to reduce the computational | make use of this approximation in order to reduce the computational | ||
overheads. | overheads. For example, ''n''-hexane consists of 6 carbon atoms and | ||
14 hydrogen atoms. A fully-atomistic model of ''n''-hexane would | |||
require 20 interaction sites. Using the united-atom approximation, this reduces to | |||
two <math>CH_3</math> sites and four <math>CH_2</math> sites, a significant reduction. | |||
==Justification== | |||
==Parameters== | |||
==References== | ==References== | ||
[[Category: Models]] | [[Category: Models]] | ||
Revision as of 11:44, 30 May 2007
In the united-atom model the and units are treated as one point, i.e. the hydrogen atoms are incorporated within the carbon atoms and are not expressed explicitly. Many force fields make use of this approximation in order to reduce the computational overheads. For example, n-hexane consists of 6 carbon atoms and 14 hydrogen atoms. A fully-atomistic model of n-hexane would require 20 interaction sites. Using the united-atom approximation, this reduces to two sites and four sites, a significant reduction.
