On Dec 3, 2011, at 9:21 AM, Jones Beene wrote:
-----Original Message-----
From: Terry Blanton
Horace Heffner wrote:
If these things are true, then the tiny black holes that escape
the local
magnets, especially when they are powered down, will eventually
head for
the center of the earth.
Hence, falling objects. How would you detect these mini-BH?
But this is happening when they are not powering down.
Well of course, the magnets attract the black holes. The black holes
are magnetic. They would not accumulate if it were not for the
magnets being on. Also, if the magnets are off then the source of
the black holes, the colliding beams, goes away.
The long range from the target area is probably actually necessary to
slow them down enough to be trapped by magnets. The bad news is they
necessarily accumulate a lot of matter along the way, reducing the
probability of a fast evaporation.
The description given
(or presumed from the situation): small, dense, ferromagnetic,
possibly
derived from protons- turns out to be a good fit to highly
redundant f/H
(fractional hydrogen).
This isomer does not have to fit the Mills' description, but at
least he has
provided physical evidence ... not that many observers believe it.
Jones
Maybe a viable explanation provided they can accumulate to a high
enough density in the beam tubes - which is uncertain since they are
small enough to diffuse through ordinary matter easily. The source
would have to be extensive, and likely the arc itself. High energy
ion beams would not create them. It takes energy removal from
hydrogen atoms or molecules to create hydrinos. I wonder what kind of
arc is used as the ion source.
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
