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In the attempt to define ghosts as the continuance
of life, we must first define the catalyst for the ghost.
The human brain is a symphony of electromagnetic signals, but science
has had trouble finding the conductor of the symphony. One of the problems
that neurologists have with consciousness is called the binding problem.
The best way to explain the binding problem is to use the analogy of a
tree. A tree seems to contain thousands of leaves, all of which are contained
on several branches. Neurobiology tells us that the information contained
in the mind (all the leaves) is dissected and scattered among millions
of widely separated neurones. The binding problem is encountered when
science tries to explain where in the brain all those leaves are stuck
together to form the conscious impression of a whole tree. How does our
brain bind information to generate consciousness? The data does not seem
to add up and our symphony conductor is once again missing.
Through his research, Professor McFadden realized
that every time a nerve fires, the electrical activity sends a signal
to the brain's electromagnetic field. However, unlike solitary nerve signals,
information that reaches the brain's electromagnetic field is automatically
bound together with all the other signals in the brain. He calls his theory
the CEMI theory.
The brain's electromagnetic field does the binding that is characteristic
of consciousness. Conscious information processing is associated with
the EM component of ultra low frequency (ULF) brainwaves in either:
a) Dialectically "denser" parts of the
brain in the normal awake state of consciousness; or
b) a gaseous ionic structure in the vicinity of the mind.
This is why ghost hunters look at EM fields. It is the basis of life itself
(a great book on the subject that I'd recommend for ghost hunters is "The
electromagnetic origins of life" by Dr. Becker). The brain's EM field
is the only possible thing that could survive bodily death.
So what happens at death?
Using the first law of thermodynamics there are several possibilities.
First, all that energy could transform into heat and bleed out of the
skull. That would also mean no afterlife, much less any possibility for
ghosts. Fortunately, there are other possibilities.
The EM field of the brain may change frequency and due to conductive fluids
within the brain, a self generating magnetic field is produced. This is
not an unusual phenomenon as the Earth generates its own magnetic field
from a dynamo effect in a weakly conducting fluid. Interestingly enough
there is some data out there that suggests that the mind goes into theta
waves just before death, which gives us a possibility of ghosts. It could
also undergo a multitude of quantum effects during this transition.
Using what data we have from neurology, we can assume that the frequency
change could not exceed much more than 40HZ or so. Many cortical and subcortical
areas of the brain have spontaneously occurring 36 - 44 Hz ("40-Hz")
activity. Across the scalp, the EEG peak frequency of 40-Hz is 39.5 Hz.
A theory is proposed in which the brain has certain resident resonant
frequencies that are subharmonics of 40-Hz activity. Some of these EEG
frequencies are commonly trained in Neurotherapy. Two examples are 12-15
Hz and 7-8 Hz activity, which are third and fifth subharmonics. Other
frequencies with known cognitive and mental processing relationships and
mathematical associations too 40-Hz include "Frontal mid Theta" at 6.5 Hz (sixth subharmonic) and Theta at 4 Hz (tenth subharmonic).
The bottom line is that we are looking for low frequency DC EM fields.
These types of fields are what we need to take a serious look at. Scientifically,
there is no other alternative.
Electromagnetic radiation is a confusing name given to the different types
of photons, as a result of Maxwell's deduction that light is a manifestation
of electromagnetism. Photons are formed when the vibrations of atomic
electrons in a state of low-energy equilibrium are excited by added energy.
Outer electrons will emit photons in the radio to UV spectrum, while inner
electrons of heavier atoms will emit penetrating photons of the X-ray
type. Excited nuclei emit the uppermost penetrating gamma-rays. Photons
are therefore extra-atomic entities. Their energies increase with their
frequencies, from radio waves to gamma waves ("rays"). Thus,
the intensity or "brightness" (an antropomorphical word) of
a given type of photon can be increased only by appropriate aggregation,
culminating in the laser beam.
Photons are particles that have a yet undetectable mass because they are
made of a few spinning PVs from the excited electrons. When they reach
target electrons, the delivered energy excites them to incorporate the
PVs. Photons differ from other particles, which also vibrate and move
with their characteristic waves, in that they are composed of two halves
with inverse spin, which do not annihilate reciprocally. The halves can
be separated, manifesting then a sort of "identical-twin synchronicity."
The impressive nature of photons is their being "code-bearing"
carriers of specific energies. The effect on their incidental targets
varies with the frequency (sharpness) of the photon waves. In biological
cells, "sharp" photons are effectors of apoptosis ("cell
suicide") because they initiate proteolytic pathways. Infrared photons
are penetrating, nudging some types of target molecules to vibrate, the
interacting momentum of mutual friction being converted to heat. From
extreme UV photons onward, target molecules are ionized, resulting in
direct damage to the various components susceptible biological cells.
Another possibility is that EMPs are Scalar fields. When viewed on an
oscilloscope with a special detector, on the greatest resolution, SCALAR
fields take on the form of many nested frequencies inside a primary bubble.
In other words, like an onion with multiple skins. This phenomenon has
been known to produce MAXIN. MAXIN is a vibration that is visible as a
white light.
We also know from physics that the electromagnetic
phenomena (orb) will be spherical in nature, based on its former structure
(CEMI field).
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