sci.physics.electromag

Now let us assume the Capacitor theory of Superconduction is true and
correct. That would imply several
things. First it would imply all superconductors are Capacitor
currents which buildup charge in nanoseconds
and then discharge in nanoseconds. Now since all AC currents are
photon-messenger-currents whilst
some DC currents are capacitor currents and other DC currents are
photon-messenger-currents, entails
a testing of Superconductors.

So that if a substance is superconductive then it can buildup charge
at a certain amount whether it is
provided by a DC current or an AC current. But here is the pretty
test. If the charge buildup is overabundant
then the discharge cannot sustain a superconduction current. Whereas a
DC current charge buildup can
sustain a superconduction current better in overabundance.

And we can rig a apparatus that provides a Capacitor DC current to
that of a charge buildup of a superconductor.


What I am trying to explain is that all AC currents are photon
messenger currents whilst some DC currents
are Capacitor currents. We can make use of this difference by
measuring when a specific material becomes
nonsuperconductive when the AC current is applied versus the DC
Capacitor current. In fact, I suspect the
numbers data of such a setup can describe the capacitance and
dielectric of a known superconductor, and
can tell us the internal geometry of say a lead or mercury
superconduction versus a perovskite superconduction.

So what I want to play off or play against is the idea that AC
currents are all photon messenger currents
and create vortices in superconduction when too much current is
applied, and so this can tell us the
geometry of the capacitance and dielectrics of a given superconductor.
And that we send AC current through
and then test the same superconductor under DC Capacitor current and
then DC photon-messenger current.

So I have three distinct types of currents to obtain data of the
internal geometry of superconductors:
(1) DC photon-messenger current
(2) DC capacitor-current
(3) AC photon-messenger current

Playing off those three types of currents on any given superconductor
should tell me alot of the internal
geometry of the superconductor. And the data I am most interested in
is the data that confirms that all
superconductors are capacitors with dielectrics.

In other words, Superconduction = Capacitors & dielectrics

If the Capacitor theory is wrong, then there is no relationships when
testing the above.

But I already know there are relationships because I already know that
AC currents applied to
superconductors lead to nonsuperconduction.

Archimedes Plutonium
www.iw.net/~a_plutonium
whole entire Universe is just one big atom
where dots of the electron-dot-cloud are galaxies