From: testing_h@yahoo.com
Newsgroups: sci.physics.plasma
Subject: Large scale demonstration of entanglement?
Date: 10 Jun 2005 03:53:59 -0700
Organization: http://groups.google.com
Hi there group.
They've entangled large clouds of atoms, several million (IIRC) in the
lab.
So, what if ball lightning (and several other related phenomena) are
composed of a central core of entangled atoms (perhaps carbon) or a
mixture.
The outer shell would be composed of a combination of argon/nitrogen
gas and highly energetic electrons, held in place by the "collective
attraction" of what is effectively one pseudo-atom which should
therefore be enough to hold the electron shell
stably out to several tens of centimetres radius.
Additionally, as this central core is heavy, this should cancel out or
reduce the inherent lift of the hot outer electron/plasma shell,
resulting in a stable hover.
When it contacts a conducting surface, the electron shell may simply
"bounce" off due to this insulating layer of atoms in much
the same way as a soap bubble bounces off clothing.
On contacting a poor or non-conductor where the velocity of impact is
high enough, kinetic energy should cause the inner core to
penetrate the glass/plastic dielectric, and the outer electron shell
should rush through the gap in much the same way as electrons rush
through a punch-through in a capacitor's dielectric.
This would be expected to cause damage to anything that uses the
integrity of glass such as a TV tube or plasma screen. The hole in the
glass might only be a fraction of a millimetre in diameter, and due to
the intense heat could simply fuse as the electron shell rushes through
the hole.
Regards,
-A