Why is silver the best conductor?

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Silver is recognized as the best conductor due to its unique properties, despite having a higher free electron density than copper and aluminum. Conductivity is influenced not only by free electron density but also by factors such as scattering from phonons, impurities, and defects. Electron-electron scattering has a minimal impact on conductivity at normal temperatures and becomes significant only near absolute zero. The discussion highlights that the relationship between free electron density and conductivity is not straightforward. Overall, conductivity is a complex interplay of various physical phenomena beyond just the number of free electrons.
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More specifically, the free electron density in increasing order goes like this:

Ag
Cu
Al

why then is the conductivity in the reverse order? ie the free electron density doesn't seem to play much of a role in conductivity beyond a certain point.
 
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Probably due to electron-electron scattering, if there are too many free electrons then they will collide with each other and limit the conductivity.
 
iScience said:
More specifically, the free electron density in increasing order goes like this:

Ag
Cu
Al

why then is the conductivity in the reverse order? ie the free electron density doesn't seem to play much of a role in conductivity beyond a certain point.

Really? Where did you get the info that the conductivity is in "the reverse order"?

http://chemistry.about.com/od/molec...f-Electrical-Resistivity-And-Conductivity.htm

Secondly, the conductivity isn't just a function of charge carrier density. The resistivity is a function scattering of charge carrier with phonons, impurities, defects, etc. BTW, electron-electron scattering, per Landau Fermi Liquid description, plays a minor role in the conductivity at ordinary temperatures. It is only apparent at extremely low temperature near 0 K.

This probably should have been posted in the Solid State physics forum.

Zz.
 
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