sci.physics.electromag

Now there is another experimental test on this theory that Capacitor-
Current = Superconduction Current

We all know that over a long distance that power transmission is
better with AC current than with DC current.

But distance should also play a fundamental role in a Superconduction
current if it is a Capacitor current.

Now one may not think that distance plays a role in a Superconduction
current from that of lightning bolt
strikes. For if lightning bolts are superconduction currents then they
travel a long distance.

When we have these superconductors in a lab we generally have a small
circuit so we neglect to
observe and test the material over a long distance.

Since a Capacitor current has electrons travelling at almost the speed
of light, that at a long
distance, the resistance is probably no longer "zero resistance" but a
small and tiny
positive resistance. So one is able to calculate the resistance of a
perovskite superconductor
over a longer distance. Now I have looked through the Poole's Handbook
of Superconductivity and
the Tinkham Introduction to Superconductivity to see if anyone has
experimented with a long
circuit of superconduction and not just the plain old regular small
circuit. I found nothing.

Now since electrons cannot travel at the speed of light but close to
it, that a long distance
superconductor should register not as "zero resistance" but rather a
"tiny positive resistance".

So this is another intriguing experiment that I am sure someone,
someday will perform and will
report important news.

In these small labs where they have a small short distance circuit of
a superconduction material,
they naturally of course will only see a "zero resistance" but if they
had that same circuit over a
kilometer distance, they, I suspect will have a "tiny resistance".


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