... am trying to put a subject line on this posting, as it fell prey to
the Vo blank subject 'virus'...
I love the symmetry implications of this essay. Not to mention the
energy implications: "Cosmic rays also sometimes consist of Calcium,
Iron and Gallium, Lithium or Beryllium. The latter three, if in
sufficient quantity, should be fairly easy to isolate from glacial
runoff, and the cosmic species easily identified if present in
sufficient quantities."
No doubt the "glacial runoff" aspect of this is already being
investigated by Horace... and perhaps a bit earlier than normal this
year as the Glaciers in Alaska are melting.
Is this related to long life expectancies in certain areas?
It all ties into the "something in the water" aspect of the Graneau
water arc - as well. Not to mention the other water-health hypotheses
(as an alternative or explanation of Ormus or magnetite enhancement).
Perhaps there is a form of magnetite-colloid which consists of several
normal Fe atoms which are bound to a cosmic-matter allotrope ???
Jones
Horace Heffner wrote:
LOCAL COSMIC MATTER - APRIL 8, 2007
DARK ENERGY
An exploration of the concepts of gravimagnetism, and specifically the
concept of negative mass charge, were discussed in:
http://www.mtaonline.net/~hheffner/GR-and-QM.pdf
Gravitational penumbrae were discussed in:
http://www.mtaonline.net/~hheffner/GravityUmbra.pdf
As noted in the above articles, gravity must necessarily be reduced by
the effects of propagation delay, gravitational red shift, and graviton
absorption. These effects, along with errors in mass estimation due to
failure to account for gravimagnetic effects, may account in part for
“dark energy” energy observations, the tendency for gravity to be
reduced with distance. Further, through symmetry, gravimagnetics
indicates the existence of negative mass charge, charge having negative
imaginary value. If such charges exist, then super massive black
holes above a critical mass are predicted to spew forth, to manufacture
from the vacuum, mass having a charge opposed to that of the mass of
such a gushing black hole. In the case of spinning black holes or
highly magnetic black holes, such an outward flow of matter would be
funneled into polar jets. The existence of such jets at the cores of
massive galaxies provide some evidence for the existence of this
phenomenon.
The existence of negative mass charge necessitates the existence of a
repulsive gravitational force and negative gravitational charge
containing matter. This matter would have negative weight here on
earth. Such matter might simply be called cosmic matter, because the
word cosmic is short, and recognizes the likely source of such matter.
Cosmic matter is not necessarily antimatter as it can be either matter
or antimatter. In fact, again by symmetry, it seems likely a cosmic
gamma should decay into a cosmic e+ and cosmic e-. Cosmic matter
attracts itself, so in a locality consisting entirely of cosmic matter
nothing would appear different from our locality. Its spectra should be
normal, though photons emitted by such matter (cosmic photons) should
also carry negative mass charge, so would be detectable by gravitational
concave lensing. Similarly, ordinary ligh would experience concave
lensing near a cosmic black hole. What distinguishes cosmic matter is
that it gravitationally repels normal matter and attracts itself.
DARK MATTER AND MIRROR MATTER
Cosmic matter is not necessarily mirror matter, because mirror matter
has only gravitational charge to us in a normal matter world. Mirror
photons, both virtual and real, have little effect on us. In fact, if
mirror matter exists, then symmetry demands the existence of mirror
matter having both positive and negative mass charge. Cosmic matter
can be either mirror matter or not. Further, a black hole consisting
of either mirror matter or normal matter, or a mixture of both types,
when of sufficient size, should be expected to simultaneously spew forth
both normal and mirror matter of the opposed gravitational charge, and
in equal proportions. This effect could account for the large
proportion of dark matter in the universe.
COSMOLOGICAL CONSEQUENCES
The existence of cosmic matter has profound cosmological consequences.
As ordinary black holes gain mass they spew forth cosmic matter. Such
matter should repel out a local space for itself and form stars and
eventually cosmic matter black holes. Cosmic matter black holes would
clearly then repeat the process in reverse. The continual generation of
pockets of repelling matter guarantees the continual expansion of the
universe. Overall, the universe must expand indefinitely, but in
localized zones consisting primarily of one charge type or another, a
phoenix effect takes place through generations of alternating black hole
types.
COSMIC RAYS AS DARK ENERGY
Some high energy particles, cosmic rays, can be expected to mix into
pockets of the opposing kind, creating dark energy effects even within
local homogeneous pockets. Some of the cosmic rays of high energy that
enter our solar system and impinge on the earth could consist of cosmic
matter. Cosmic rays made of cosmic matter have far more energy than
required to overcome the gravitational repulsion of our earth, our sun
and our galaxy. Cosmic matter may exist in detectible quantities right
here on earth. Further, like cosmic rays in general, it should be
expected to occupy the space around us in a highly uniform density and
isotropic velocity distribution. Given that a fixed proportion of such
cosmic rays are cosmic matter, then this could explain the Pioneer
Anomaly - that the Pioneer 1 and 2 spacecraft see a reduction in gravity
as the intervening distance to earth increases, and in proportion to
such distance. The repellant cosmic mass between earth and the Pioneers
increases linearly with the distance separating them, as does the force
of dark energy observed.
SEARCHING FOR COSMIC MATTER
Cosmic matter arrives here as comic rays. About 90 percent of cosmic
rays are hydrogen, but they impact atmospheric molecules and cause a
shower of particles, including gammas, neutrons, kaons, pions and
mesons. It is possible the imaginary mass charge is preserved, and most
likely detectable product is the hydrogen atom.
It might be possible to detect cosmic electrons, but the low mass of the
electron combined with its high charge to mass ratio makes a negative
gravitational mass detection very difficult. A very slow electron beam
separation over over a long distance might be required to distinguish
one species from the other. Perhaps cosmic electrons could be sorted
out in a long but ordinary resistor, or electrochemical cell, due to a
gravitational force powered upward drift causing positive buoyancy.
Centrifuges would be of no use. Only gravity can do the separation.
Isolating cosmic hydrogen might be much easier than cosmic electrons or
even protons, if enough concentration exists on earth. An excellent
source of cosmic particles in general would be melting glacier ice.
Surface tension should hold cosmic particles in the water long enough to
be sampled. Cosmic hydrogen in water would be bound in H2O like
ordinary hydrogen - at least long enough to grab samples. If the
hydrogen is electrolyzed from the water, and then liquified, it should
result in three types. Ordinary hydrogen, half-ordinary-half-cosmic
hybrid hydrogen which is highly buoyant, and pure cosmic water with two
cosmic protons having negative weight. If a visible amount of liquid
cosmic hydrogen is made it should be easy to detect floating in the
sealed top of a dewar. If enough of the stuff exists, it might even be
possible to separate water molecules based on increasing bouyancy with
increasing number of cosmic hydrogen atoms, and then detect them via
their bulk water density.
Cosmic rays also sometimes consist of Calcium, Iron and Gallium, Lithium
or Beryllium. The latter three, if in sufficient quantity, should be
fairly easy to isolate from glacial runoff, and the cosmic species
easily identified if present in sufficient quantities.
If tons of pure cosmic matter could be isolated, it could obviously be
extremely useful for earth to orbit and space vehicles for reducing the
space ship weight.
Regards,
Horace Heffner
