Posted by: Dean
In chapter four of The Ultimate Reality, Mr. Cater describes the source of
gravity effects:
" As mentioned previously, gravity effects are produced by a highly
penetrating portion of the electromagnetic spectrum, which falls between the
lowest fringes of the infrared and the higher frequencies of the radar band.
It is on the order of about a trillion cycles per second. Most of the energy
radiated by the sun is in the ultraviolet range and above. Only an
infinitesimal part of it is in the lower frequencies which contain the
gravity radiations. Therefore, the sun has a very low surface gravity as
evident by the tidal effects it produces."
He goes on to give a brief definition of how the radiation is produced in
contact with the surface and immediate sub surface of the planet:
" The law of redistribution of energy, not stated in any textbooks, plays a
vital role in the benefits any planet receives from a sun. Briefly, it
states that when radiant electromagnetic energy interacts with matter, the
resulting radiation as a whole is of a lower frequency than the original
radiation ]."
In Chapter 13, Mr. Cater goes on to describe the process in greater detail.
He writes that when electrons are subjected to higher temperatures their
velocity increases. When this happens, the charge on the electrons changes
because it varies with velocity- when electrons slow down, the electrostatic
charge on them becomes stronger; when electrons increase their velocity,
the charge diminishes. This change in velocity disrupts the ether flow
between the electrons and causes them to compact and adhere to each other.
This is hoow photons are formed, and photons go on to form electrons.
So the process of forming particles in the gravity-inducing range begins
when the Sun's rays first strike the Earth's surface and react with the
electrons of matter in the way just described.
Mr. Cater feels that this process produces particles in the gravity-inducing
range for about 50 miles. After that, the interactions produce a frequency
even lower than the frequency which induces gravity. Thus gravity DECREASES
the further down one penetrates the surface of a planet because the
gravity-inducing charge only exists within an initial strata. In fact, the
even lower frequency produced will block the gravity-inducing radiations
from working their way down any further.
This accounts for the type of gravity shielding described in the book
Etidorhpa.
This type of gravity production can also explain how it is that Earth-like
gravity can exist on planets such as Mars and the Moon, as this model of
gravity production does not depend on the mass of the planet in order to
produce a certain force of gravity; at least, it doesn't depend on the
differences in mass of the various celestial orbs beyond a certain size.
Here are Cater's comments from chapter 13:
The fundamentals of physics have now been fairly well outlined; however,
this presentation is still far from complete. There are still many details
which need to be filled in. This is especially true concerning the
properties of light, despite the fact that the real rneanin of Planck's
constant has already been presented and its relationship to light has become
apparent. How does the law of redistribution of energy work? What are the
real principles behind color perception? Why is the velocity of light
independent of its frequency? Why is this velocity equal to the ratio
between an electromagnetic and electrostatic unit of charge? The answers to
these questions have never been given before. Great fluctuations occur in
the velocity of electrons in their orbits when materials are subjected to
high temperatures. This, in turn, creates interactions and interference
effects between electrons moving in opposite directions inside atoms and
between electrons in adjacent atoms. These interactions generate changes in
the electrostatic field effects of the electrons, which will cause regular
and distinct changes in their orbits. This is because the charge on the
electron varies with its velocity. Abrupt changes in a particle disrupts the
ethers which, in turn, results in the formation of photons. In one respect,
the theorists did make a lucky assumption, but the " quantum jumps " of the
electrons were the effects, along with the light produced, and not the cause
of the spectral lines.
The larger the atoms, the more complex the interactions, and consequently,
the more intricate the spectral pattern. The photons comprising the
electrons determine the range of the ethers that can be disrupted. These
ethers are intimately connected with the electrostatic field intensity of
the electrons. Thus; it follows from this new definition of Plank's
constant, just why this definition must be taken into consideration in all
of the calculations concerning the frequency of light produced in
interactions. This even holds for the discusive mathematical jugglings by
mathematical physicists, and why they were able to account for some of the
spectral lines from a quantitative aspect.
The definition can be clarified still more by keeping in mind the following:
the electrostatic field effects around an electron are dependent upon the
range and level of the ethers deflecting off the sides of the particles.
This range is not necessarily the same as the range of ethers affected by
sudden changes in the velocity of the electrons, but there is a direct
correlation between the two. When electrons interact some of the ethers
deflected from the electrons will, in turn, interact directly or indirectly
with other ethers that cannot contribute to the electrostatic field effects
of the electron. In this marner, a tremendous range of ethers below that
from which the electrons originated can be indirectly disturbcd by the
electrons, and Planck's constant plays a role throughout the procedure,
since all ether particles have the same kinetic energy. Electrons cannot
disturb ethers higher than those with which they are associated to the
extent of producing harder photons and electrons because of the ultrahigh
frequencies required. This is in accordance wiih the fact that energy cannot
flow uphill.
THE LAW OF REDISTRIBUTION OF ENERGY
A more penetrating look at the law of redistribution of energy discussed
earlier is now in order. Briefly, it states that when light interacts with
matter, new light results with a lower average frequency than the original
light. One of the simplest demonstrations of this law is done with the use
of light filters. For example a light beam in the blue or violet end of the
visible spectrum, after passing through a series of filters, regardless of
the types, will always emerge from the last one as red light, providing a
sufficient number of [ filters ] are used. These filters could be all blue,
violet or any other combination.
It was shown in the previous section that when an electron or proton is
activated, sucessively lower ethers are indirectly disturbed, resulting in
the production of lower frequency photons. This is in accordance with the
universal law which states that energy can only flow from a high potential
to a lower one. The law of redistribution of energy is based on this
principle. When light interacts with matter, many of the photons scatter
and are displaced, while others recombine during reflections to form soft
particles [ low frequency light ]. These soft particles further interact
with matter resulting in some of the original light being repropagated.
Note: the following point is extremely important ] It is the production of
photons by the indirect disturbance of ethers that produces the lower
frequency of light resulting from the interactions of light with matter.
The lower frequency light produced, in turn, interacts with matter to
produce, indirectly, still lower frequency light. However, the intensity of
such light rapidly decreases as the lower frequency levels are approached.
It is the interactions of soft particles and their disintegrations which are
the greatest factors in the direct and indirect disturbance of ethers to
produce new photons. The soft particles release hard electrons during
disintegration,and their interactions with matter and with each other
disturb the ethers. In some instances the release of hard electrons can be
violent enough to produce higher frequencies than those of the original
light, as indicated by the Raman effect.
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