Re: Gravimagnetics
- From: Horace Heffner <hheffner@xxxxxxxxxxxxx>
- Date: Wed, 18 Jul 2007 10:01:24 -0700
From: hheffner@xxxxxxxxxxxxx
Subject: gravimagnetics
Date: July 17, 2007 3:19:26 PM AKDT
To: vortex-l@xxxxxxxxxx
Gravimagnetics continues to slowly evolve, as I dunder and blunder my
way along, especially from page 28 to 33:
http://mtaonline.net/~hheffner/FullGravimag.pdf
Some snippets of fairly new material follows.
There is a seeming problem regarding the conservation of gravitational
charge. Matter-antimatter pairs created from the vacuum carry the
same gravitational charge. Gravitational charge thus appears to not
be conserved. There is a convenient and highly unanticipated
resolution to this problem. When a matter-antimatter pair is created
from the vacuum there is always simultaneously created a mirror matter-
antimatter pair. Call such a foursome a *dual pair*. Further, having
negative gravitational charge, the mirror matter-mirror antimatter
pair represents negative energy. Thus is provided a significant new
interpretation of the Dirac equation negative energy. Further, the
net energy created from the vacuum double pair formation (initially
anyway) is stunningly exactly zero. ...
In normal (weak field magnitude) circumstances, when it comes to the
flat space Dirac equation, the interaction Hamiltonians, etc., the
gravitational universe, consisting entirely of imaginary quantites,
can be viewed as completely independent for computational purposes,
and then consolidated. The exact same equations can be applied to
the gravitational portion of the computation in order to derive the
gravitational forces, energies, waveforms, etc. The gravitational
formulations are completely independent of the electromagnetic
formulations. They are isomorphic, so the same equations are used,
though with the isomorphism substitutions as defined. The results,
however, are not similar in handedness or magnitude, because, though
the equations are all formally identical, there are imaginary values
coming into play, and h_g = - h, G is used instead of the Coulomb
constant, etc. Because the gravitational charge and EM charge are
bound together, the forces can be summed to characterize a fermion,
or to characterize a boson-fermion interaction as a whole. The
Hamiltonians exist independently and energy conservation results in
both universes. ...
Note that any sized black hole with mass occupying a point has, for
some finite radius, a volume in which the field strength is
sufficient for double pair creation to take place. As the mass of a
black hole increases, the radius of this mass spawning sphere
increases. For this reason, essentially every black hole spawns mass
from the vacuum, and thus simultaneously builds its own mass. Also
for this reason, spawning black holes, using the Large Hadron
Collider, for example, may be far more dangerous than anyone
expects. ...
BLACK HOLES RADIATE
Black holes consisting of mirror matter create dual pairs, as
described above, and absorb the negative gravitational energy of the
mirror pair. The real pair is then ejected in one form or another,
either as a matter pair, or as a pair of real photons. Analogous
effects occur from real (as opposed to mirror matter) black holes.
The smaller the black hole, the greater the proportion of energy
ejected that should be in the form of photons. In any case, most of
the mass-energy ejected should be in the form of photons due to the
high probability of (like gravitationally charged) pair annihilation.
These gravitationally emitted photons will have energy levels that
indicate the (positive) gravitational potential of the radius at which
they were formed. Further, the radiant mass-energy of a mirror black
hole not feeding on other bodies provides a direct indicator of the
rate of mass increase of that black hole due to dual pair creation,
because the two mass-energy flow rates are equal. This radiant
energy is *not* Hawking radiation. Its origin is not the event
horizon, but rather the interior of the black hole, and its spectrum
provides information about conditions inside the black hole, including
its mass and the dual pair formation flux at various radii r.
Negative gravitational matter is utterly unaffected by an event
horizon. Dual pair initiated radiation is comparatively invisible
when coming from an ordinary matter black hole because the radiation
is mostly mirror radiation.
Horace Heffner
http://www.mtaonline.net/~hheffner/
.
- References:
- Gravimagnetics
- From: Horace Heffner
- Re: Gravimagnetics
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- Re: Gravimagnetics
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- Re: Gravimagnetics
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- Re: Gravimagnetics
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- Re: Gravimagnetics
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- Re: Gravimagnetics
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