How/why does electricity make metal shiny?

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Electricity makes metal shiny due to the behavior of conduction electrons, which vibrate in response to incident electromagnetic radiation, creating plasmons. This oscillation leads to a phase-shifted reflection of light, resulting in the shiny appearance of metals. The plasma frequency indicates the threshold at which electrons can no longer follow the oscillating electric field, causing light to pass through instead of being reflected. A suggestion for further reading includes the CRC Handbook of Chemistry and Physics, which may provide graphical explanations. Understanding these concepts clarifies the relationship between electricity and the shiny quality of metals.
mugsby
i have heard this a few places but so far no one has explaned themselfs. i'd assume it has to do something with how the atoms bond, but electrons are pretty loose with metal that why it conducts so good. so i don't get it.:confused:
 
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mugsby said:
i have heard this a few places but so far no one has explaned themselfs. i'd assume it has to do something with how the atoms bond, but electrons are pretty loose with metal that why it conducts so good. so i don't get it.:confused:

I am not quite sure on what you mean by "shiny" but if you are referring to the screening of an incident E-field by the metal's conduction electrons, then your answer is : PLASMONS

Plasmons are the particles (well quasi particles actually) that are associated with the longitudinal waves of the conduction electrons in a metal that has been submitted to incident EM-radiation.

The conduction electrons in the metal will start to vibrate longitudinally as a response to the incident EM-radiation (ie as a reaction to the incident oscillating electrical field actually). It is this oscillation of conduction electrons that gives rise to the phase shifted reflected light of a conductor.

The plasma frequence is that frequence above which the electrons can no longer 'follow' the oscillating incident E-field. Thus the E-field is no longer reflected but passes through the medium.

Hope that helps,

regards
marlon
 
thanks for the info, would this book have a graphical explanation?

CRC Handbook of Chemistry and Physics

i'm thinking of asking for this for christmas, maybe a bit heavy for bathroom reading though.
 

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