>
> electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
> if so then dE is proportional with dR or dQ1; dE proportional with dR
> makes polarized light not spreading equally in every direction while
> dE proportional with dQ1 makes the true light wave spreading equally
> in every direction. therefore speed of light is more like c=d(Charge)/
> d(Time) and it sort of stands for resistance towards the absorption of
> the variations in the electric charge of the emiter//otherwise with
> superconductivity speed of light is infinite.

> dedanoe wrote:
>

>> electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
>> if so then dE is proportional with dR or dQ1; dE proportional with dR
>> makes polarized light not spreading equally in every direction while
>> dE proportional with dQ1 makes the true light wave spreading equally
>> in every direction. therefore speed of light is more like c=d(Charge)/
>> d(Time) and it sort of stands for resistance towards the absorption of
>> the variations in the electric charge of the emiter//otherwise with
>> superconductivity speed of light is infinite.

>
> <http://loscuatroojos.com/wp-content/uploads/2008/05/youranidiot.jpg>
> <http://www.dementedferret.com/contents/media/t_Idiot-Seeks-Village.jpg>

>
> --
> Uncle Alhttp://www.mazepath.com/uncleal/
> (Toxic URL! Unsafe for children and most mammals)http://www.mazepath.com/uncleal/lajos.htm#a2

> electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
> if so then dE is proportional with dR or dQ1; dE proportional with dR
> makes polarized light not spreading equally in every direction while
> dE proportional with dQ1 makes the true light wave spreading equally
> in every direction. therefore speed of light is more like c=d(Charge)/
> d(Time) and it sort of stands for resistance towards the absorption of
> the variations in the electric charge of the emiter//otherwise with
> superconductivity speed of light is infinite.
>
> http://dedanoe.googlepages.com

> electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
> if so then dE is proportional with dR or dQ1; dE proportional with dR
> makes polarized light not spreading equally in every direction while
> dE proportional with dQ1 makes the true light wave spreading equally
> in every direction. therefore speed of light is more like c=d(Charge)/
> d(Time) and it sort of stands for resistance towards the absorption of
> the variations in the electric charge of the emiter//otherwise with
> superconductivity speed of light is infinite.
>
> http://dedanoe.googlepages.com

>electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
>if so then dE is proportional with dR or dQ1; dE proportional with dR
>makes polarized light not spreading equally in every direction...

>
> electric field is: E=F/Q2=-kQ1/R^2 and if it's waving then dE<>0 and
> if so then dE is proportional with dR or dQ1; dE proportional with dR
> makes polarized light not spreading equally in every direction while
> dE proportional with dQ1 makes the true light wave spreading equally
> in every direction. therefore speed of light is more like c=d(Charge)/
> d(Time) and it sort of stands for resistance towards the absorption of
> the variations in the electric charge of the emiter//otherwise with
> superconductivity speed of light is infinite.
>