Archimedes Plutonium wrote:
> >
> > That is an easy answer: Capacitor Currents are all about Conservation
> > of Energy.
> > Energy put in, is equal to energy coming out. So as long as you have
> > ultra cold
> > or you have Capacitor currents the Zero Resistance is merely the
> > Conservation
> > of Energy.
> >
> > In other currents like AC or DC, there is also Conservation of Energy
> > but it includes
> > a large chunk going to Resistance.
> >
>
> So the world has at least three distinct types of currents:
>
> DC
> AC
> Capacitor Current and I am now going to give it a name of CC
>
> So Conservation of Energy easily explains away the zero resistance in
> CC. Where there is
> no resistance in a Lightning Flash and no resistance in a Wimshurst
> generator CC and no
> resistance in a mercury at 4 Kelvin as a CC. So zero resistance is
> simply the acknowledgement
> that of Conservation of Energy, where energy in is equal to energy out
> in the form of electricity
> and none to resistance.
>
> But the bigger puzzle is why does these three currents:
>
> DC
> AC
> CC
>
> Why does only the CC have ideal-diamagnetism? Why does not the AC or
> DC have ideal-diamagnetism?
>
> Obviously, it must have something to do with the fact that resistance
> cancels ideal-diamagnetism.
>
> Now there are proofs that CC exists and is the current that creates
> superconduction by means of
> converting AC or DC into that of CC. So when we convert a AC current
> into a Capacitor Current we
> lose some of the energy in the conversion, but that once the CC is
> created there is no loss to resistance.
>
Now I should be able to formulate a Mathematical Relation****p between
AC, DC currents
and CC currents because we can transform AC and DC into that of a CC
current.
In other words, AC and DC are translated into a CC superconductor
current.
So far I have the two distinct features of CC in zero-resistance and
ideal-diamagnetism.
But what is missing is the primary attribute or feature of CC or
Superconductivity and that
is its Capacitor buildup and discharge. The reason that AC and DC are
not superconductive
currents is because they are not capacitors-in-action.
In the old days-- anytime before 2008, it was believed in physics and
chemistry that superconductivity
depends on the materials used and the temperature involved. With the
newfound knowledge
of how superconductivity really actually works, we see the main
feature of Superconductivity all
relying on Capacitance and we no longer need to hunt and search for a
"material" such as a
carbon or perovskite. Instead, we can simply turn any AC or DC into a
superconductor current of
CC. The reason your house wires are not superconductors is not because
of the materials or
the temperature, but because the electrical is not yet converted to
CC.
Every lightning bolt strike is a superconductor current and a CC.
Lightning does not care about
the temperature, nor does it care about ideal-diamagnetism or
paramagnetism. The only thing that
Lightning cares about is that it comes from Capacitance buildup and
discharge.
So the reason a Superconductor is a superconductor is not so much its
attributes of
zero-resistance nor ideal-diamagnetism, but rather its feature of
having been Capacitorated.
AC is not a superconductor current because its electrons have not been
Capacitorated. Nor
is DC. But we can turn both AC and DC into a capacitorated current of
CC and by doing
so we have turned AC and DC into a superconductor current.
To show that I am correct on these ideas, we can turn a DC or AC
current into a Capacitor
Current and its attending zero-resistance and ideal-diamagnetism.
The energy it takes to convert AC to CC will equal the energy savings
obtained from
the zero-resistance and ideal-diamagnetism. So the math should all end
up as if I took
the energy of a AC current that matches the energy of a Lightning Bolt
strike and had to
add more energy to the AC current to render the features of zero-
resistance, ideal-diamagnetism
and most im****tant of all Capacitance.
So I have a preliminary math structure of this:
AC subtract Capacitorated subtract zero-resistance subtract ideal-
diamagnetism = an
equivalent Lightning bolt strike
Now in the laboratory we can take a AC or DC current and convert them
into a Capacitor Current
and this energy loss from the conversion accounts for the zero-
resistance and ideal-diamagnetism
gain in the CC
I have to do a bit more calculating...................
Archimedes Plutonium
www.iw.net/~a_plutonium
whole entire Universe is just one big atom
where dots of the electron-dot-cloud are galaxies
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