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Timothy R. Cook <tim### [at] scifi-fantasycom> wrote:
:> Why does it seem to go slower through the object?
: Because it DOES go slower through the object.
That really didn't answer my question. Why does it go slower inside the
object?
: The line is
: 'nothing travels faster than the speed of light *in a vaccuum*'.
I know that, and I wasn't asking that.
:> How, for example, electrons can travel in water faster
:> than photons can (ie. why don't electrons collide in the
:> same way as photons; electrons are a lot bigger)?
: The explanation for that is: electrons don't travel, they're
: pushed aside thusly:
I wasn't referring to electric current. I was referring to what happens
in nuclear reactors (I think that it's called Tserenkov's phenomenon or
something similar): Electrons travel in water faster than light, which
causes a greenish glow (a kind of "sonic boom" but with light instead of
sound).
And besides, eletric current travels quite slower than c. I think that
in copper it travels at something like 0.7c.
--
#macro N(D,I)#if(I<6)cylinder{M()#local D[I]=div(D[I],104);M().5,2pigment{
rgb M()}}N(D,(D[I]>99?I:I+1))#end#end#macro M()<mod(D[I],13)-6,mod(div(D[I
],13),8)-3,10>#end blob{N(array[6]{11117333955,
7382340,3358,3900569407,970,4254934330},0)}// - Warp -
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