In [[computational mechanics]] and [[statistical mechanics]], a '''radial distribution function''' (RDF), ''g''(''r''), describes anhow averagethe density of surrounding matter varies as a function of radiusthe normalizeddistance byfrom thea averagedistinguished densitypoint. ConsideringanThis atomis tonormalized beby locatedthe ataverage itsdensity center,such forthat anthe amorphousfunction solidgoes withto atoms1 offar radiusfrom σthe distinguished point when the densitymedium ofis particleseven forslightly radiidisordered. ''r''<2σLocating willour bedistinguished ''g''(''r'')point =at 0.the Allcenter particlesof touchinga thathard-core particle will be atwith radius 2σ. As ''r'' increases, though, ''g''(''r'') will= converge0 onfor 1''r'' because< at a distance any adjacency effects will go to zeroσ.
Given ana [[energy potential functionenergy]] function, the energyradial ofdistribution a volumefunction can be determinedfound fromvia the radial distribution functionsampling.
What makes the RDF important is that for certain systems it can be used to calculate most thermodynamically interesting quantities, such as the average energy U or entropy S.
--[[User:Frobnitzem|Frobnitzem]] 19:41, 25 July 2006 (UTC) David Rogers
