Hi Dave,
This kind of relativistic effect has been investigated by Charles
Cagel. He proposed this and we discussed it at length on
sci.physics.fusion about 10 to 15 years ago I think. See:
http://www.singtech.com/
http://www.singtech.com/pages/success.html
On Dec 3, 2011, at 7:44 AM, David Roberson wrote:
That is an interesting concept Horace. I suspect that black holes
could cause a serious kink in the operation of the LHC. A while
back I was considering another phenomenon that might be important
in this case. At the time I was thinking about time dilation and
its effects upon matter and had an interesting thought experiment.
According to special relativity, as an object moves faster its time
defined processes begin to slow down relative to us the observers.
I pictured what might happen to a pair of protons near each other
and obtained some interesting results. Normally, they would repel
each other due to the same charge and begin to accelerate apart.
This is of course what we would measure if they were stationary.
Next, I assumed that I was standing at a stationary observation
point and watching a pair move past me rapidly. I calculated that
the magnetic force acting upon one by the other would be in direct
opposition to the electric repulsion and the net force thus reduced
in magnitude. This reduction of force continued to increase as the
pair velocity increased until it became zero at the speed of
light. This result made a great deal of sense since at that speed
time would cease to pass for the pair of protons from my point of
view and they would not accelerate apart.
With this model in mind, it seems possible that a small outside
push from our world would be able to push the two protons together
resulting in fusion. Maybe this is what is occurring in this
situation. A kink in the magnetic field such as a small gradient
might result in the fusion of protons leading to the disruption of
the beam.
This effect would become more and more apparent as the speed of the
protons increases which may be the reason that it has not been
observed until now.
Dave
-----Original Message-----
From: Horace Heffner <[email protected]>
To: vortex-l <[email protected]>
Sent: Sat, Dec 3, 2011 2:02 am
Subject: Re: [Vo]:LHC plagued by UFOs
On Dec 2, 2011, at 5:28 PM, Terry Blanton wrote:
> Seriously,
>
> http://www.livescience.com/17207-ufos-disrupting-search-god-
> particle.html
[snip]
>
> Even more UFO events, and resulting beam dumps, happened at a
point in
> the beam just past objects called injector kicker magnets (MKIs),
> suggesting that these magnets are a major source of the mystery
> objects. The large impact of these UFOs implied that they were being
> accelerated toward the proton beam by the magnets, which could only
> happen if the UFO particles were charged.
>
[snip]
>
> An unexpected greater mystery? Serendipidous Science!
>
> T
I have a wild idea. It could be black holes. One of the most
profound predictions of gravimagnetic theory is that virtual photons
carry no gravitational charge. They have zero gravitational mass.
Therefore, black holes will accumulate magnetic fields corresponding
to the sum of the magnetic moments they consume. This could be useful
for using black holes as power supplies, in that they can be
contained by an actively controlled magnetic containment field.
It would be natural for black holes to accumulate in the vicinity of
magnets. The biggest hole in this explanation of the UFOs is the
distance of the of the MKI's and beam origin from the target area.
If they are accumulating at such large distances, then the number of
black holes being generated would have to be huge. Further, their
evaporation rate would have to be slow to non-existent for such an
accumulation to take place.
One of the most intimidating deductions from my gravimagnetic theory
was the prediction, mandated by symmetry, that black holes
continually increase in mass by separating mass charge pairs from
vacuum fluctuations. This process conflicts with the Hawking
Radiation theory, because the Hawking radiation theory does not take
into account the existence of negative gravitational mass charge.
Further, there is no Swartzchild radius for negative gravitational
charge matter. A matter pair of with opposed gravitational charge can
be separated anywhere within the black hole, with the negative
gravitational charge half being accelerated out of the black hole at
enormous energies. The interior of a black holes is likely a very
energetic place, having a large particle and photon flux, even if no
matter is accreting. This is due to mass manufacturing from the
vacuum. Charged pairs which are fully separated in the mix, and thus
have gravitational charge, are likely to recombine before the
negative mass particle can escape. However, due to their real mass
they will generate real photons upon annihilation. If either or both
of the annihilation photons has a negative mass charge, then it will
have a high probability of being quickly expelled from the black hole
due to low probability to react with other identical escaping
photons. If the photon interacts with charged particles on the way
then it can split off into 3 photons, two of which have negative
gravitational mass, or create additional negative gravitational mass
real particle pairs from their extreme energies. A black hole with
even near Planck mass might not evaporate as predicted by Hawking,
but might actually continue to grow, while emitting massive amounts
of negative gravitational mass matter, which I called "cosmic matter"
in my paper:
http://www.mtaonline.net/~hheffner/CosmicSearch.pdf
The nature of the matter so created depends on symmetry issues
discussed here:
http://www.mtaonline.net/~hheffner/GravityPairs.pdf
By the gravimagnetic theory, cosmic matter is possibly, or even just
largely, mirror matter. Therefore the negative gravitational mass
issuing forth from ordinary mass black holes would have a very low
coupling factor with ordinary matter, and essentially be invisible.
This goes for both the real matter and real photons produced from the
black hole. The black holes themselves would have a high degree of
interaction with ordinary matter in the vicinity though, via their
incredibly strong and continually growing B fields.
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. It will soon be all
over here if the shutdowns are due to itinerant black holes, and the
evaporation rate does not exceed the negative mass charge generation
rate for small black holes.
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
