Thomas G. Hieronymous: Eloptic Energy... US Patent #
2,482,773, &c...

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**Thomas
G. HIERONYMOUS**

**Eloptic
Energy**

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**[Hieronymous:
"Another Form of Energy is Discovered..."](#another)**  
**[Anonymous:
"The  Effect of Magnetism on Eloptic Radiation"](#effect)**  
**[US
Patent # 2,482,773](#2482)**  
**[Hieronymous: "Conducting Chlorophyll
Energy over Wires"](#chloroph)**

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**Another Form of Energy is
Discovered that has Infinite Possibilities**

**A Description of
Recent Researches of T. G. Hieronymous**

**by** **T. G. Hieronymous**

**( 1956 )**

**Introduction**

"Complete
theories do not fall from heaven"...  Freud.

This well
exemplified the attitude of many people --- that if an idea
is not completely developed and the theory so foolproof as
to be beyond question, then they want no part in it.

Following
Benjamin Franklins discovery of electricity, a scoffer
caustically asked, "Of what use is that kind of knowledge?"

To which
Franklin kindly replied, "Of what use is a child? He may
grow into a man."

We are very
much in the same position as Franklin. We have discovered a
new force or rather we have uncovered a force that has been
here since the beginning of time but only a few have
recognized it.

The BIG
question is, "What shall we do with it?"

At the
moment, we are doing two things: continuing research and
acquainting interested people with the idea in order to get
their cooperation. That is the reason for this paper. This
is the first time the subject has been discussed publicly
before an audience.

**Eloptic
Radiation Theory**

There is an
all-pervading media that is capable of being set into
activity by certain forces. This media might be the same as
that which is described by electronic and electrical
engineers and physicists as the ether in action at higher
harmonics than so far explored, or it may be a finer media.
Since it acts as if it were different, lets call it the
FINE MEDIA for descriptive purposes at the moment.

Our material
world is made up of combinations of a few units, some of
which are called electrons, protons, and neutrons. These
units act as if they were precipitations out of the Fine
Media, because these units may be disintegrated or put back
into their original state in the Fine Media. There is much
in todays scientific literature that points the way to
these conclusions in addition to our own research results.
The Fine Media can take on or manifest several different
qualities, such as frequency and cohesive force.

Just as the
ether can be caused to vibrate at different bands of
frequencies to manifest as electricity, radio, heat, light,
ultraviolet, etc., so can the Fine Media be caused to
manifest in many ways.

When the Fine
Media is properly influenced, it can be caused to coalesce
to the point where material units such as electrons,
protons, and neutrons are formed. When these units are
desired to be grouped together, a still further
manifestation of the Fine Media takes the form of the
cohesive force necessary to form the nits into elements such
as helium, iron, gold, and uranium. A still further
manifestation of the cohesive force is necessary to form
elements into compound or complex groups.

When such
units are formed into elements or compounds, there is a
stress field, or aura, around or radiating from such
elements and complex groups. This field or aura has a
frequency that is characteristic for each nuclear and
molecular combination.

For example,
chromium having in its nucleus 24 protons and 30 neutrons
will have a slightly lower frequency than will iron with 26
protons and 28 neutrons, even though both nuclei contain the
same total number of 54 units each.

This
phenomenon is the basis of the idea covered by patents and
its use as an analyzing medium, the subject matter of this
paper.

It takes a
certain amount of energy to cause the Fine Media to coalesce
so that the units, protons and neutrons, will be formed and
a lesser amount of energy to combine the units into the
group of particles called the element, e.g., hydrogen,
silver or mercury, and still a lesser amount of energy to
form the molecules of the various compounds.

Such an
element or compound can be disintegrated back into its
components or units or even completely back into the Fine
Media from whence it came. The atomic bomb action obeys this
principle.

To
disintegrate an element and change it back to its units
takes energy, the amount depending upon the way the energy
is applied. Assume a very heavy weight suspended by a long
chain. To cause this weight to oscillate over, e.g., one
foot with one blow from a hammer might require a hammer of
very large proportion and a giant to wield it.

On the other
hand, if a small boy gave the weight a push, then waited a
bit and gave another push and another, all timed properly,
the weight would begin to swing andintime would be swinging
through the arc of one foot.

When a single
blow in the form of a fast-moving particle, such as a
neutron or alpha particle, accelerated in a cyclotron, is
the "hammer", and the nucleus of an element is to be broken
up, the "hammer" must strike a tremendous blow (millions of
electron volts) to crack the nucleus.

On the other
hand, if a small amount of energy is fed into the nucleus at
its proper frequency, the nucleus will easily, slowly,
quietly fall apart into its units, just by neutralizing the
effect of the cohesive force or binding energy as it is
sometimes called. Thus a little energy of proper frequency
steadily applied may do more than an enormous amount of
energy applied in the brute force manner.

One of the
most used but least controlled and understood methods of
setting the Fine Media into oscillation is by the
Mental-Emotional output from a human being. Just as the
crystal in a radio power oscillator sets the frequency, and
the energy applied to the plate circuit determines the power
output, so does the Mind act to set the frequency and the
Emotional Body to furnish the power.

Every time we
generate an emotion we start a wave motion in the Fine
Media. Such a wave motion can travel infinite distances, and
it continues to oscillate until some counteracting wave
motion is set up to neutralize the original or until the
original wave motion is absorbed by someone or something
that is in the proper frequency relation to it.

Just as a
radio receiver that is tuned to the exact same frequency as
a transmitter acts as if it were connected via some
invisible medium to the transmitter by responding exactly as
the transmitter is activated, so does a specimen of certain
things act as if there were a connection between it and the
parent body form which it was taken by responding exactly to
all activities of the parent body.

**Substantiation**

At this
point, the scoffer usually says, "Thats all bunk!" Suppose
we digress a moment and see to whom he directs his verdict
of "bunk".

Almost 20
years ago, Dr Robert Millikan, former president of the
California Institute of Technology and Nobel Prize winner in
physics for his work in weighing the electron, was speaking
before a joint meeting of all the technical societies of
Kansas City, MO. He showed a large number of slides, the
last of which was a smooth curve with "f" along the left
margin and "e" across the bottom. He said, "Some day we will
find that each of the elements of material matter vibrates
at a frequency, each different from the other."

The writer
was thrilled beyond words because some of the material in
this paper had at that time already been discovered.

Years laterm
Dr I.I. Rabi of Columbia University won the AAAS prize for
his work on nuclear resonance. Quoting from Science News
Letter for January 6, 1940, on this work, we read, "Atoms
can act like little radio transmitters broadcasting on ultra
short waves."

The
Associated Press release of December 30, 1939, went further
and said about Dr Rabis findings, "Man himself as well as
all kinds of supposedly inert matter constantly emit rays.
The existence of such rays coming from man and all living
things, and probably from the inanimate, has been suspected
by a few scientists for many years. Today brought
experimental proof. The discovery shows that every atom and
every molecule in nature is a continuous radio frequency
broadcasting station. Those who believe in telepathy, second
sight and clairvoyance, have in today the first real proof
of the existence of invisible rays which really travel from
one person to another."

Another
Associated Press release next day states, "Scientists who
have studied Dr Rabis report said it furnishes for the
first time a logical explanation of such things as
telepathy, heretofore a quasi-scientific phenomenon, and the
feeling that someone else is approaching in a dark room.
It may also prove to be the source of attraction or
repulsion between individuals since all the atoms of the
body are continually broadcasting weak but detectable radio
signals."

David
Sarnoff, president of RCA, speaking before the 7th
International Congress on Rheumatic Diseases in New York
(June 1, 1949), said, "Men do not understand how their
thoughts and emotions are born, and by what power they grow
to fruition. Is this force electricity? When we understand
each other, is it because we are attuned to each other
electrically or electronically? If so, we should learn the
electrical characteristics of the human body."

On March 7,
1951, the Miami Herald (FL) printed a UP release from
Copenhagen, Denmark, Agricultural expert Herluf Hansen said,
"Any mental disturbance is immediately reflected in the pig
sty. Keep your temper, talk friendly to your pigs, and
caress them. The financial result will be excellent."

The same
paper on march 16, 1950, carries this, "If beautiful blondes
run away at your approach, if dogs growl at you without
explanation, cheer up, maybe its not your face after all.
Might be your body vibrations."

This is the
theory put forward today b y Austrian psychologist Dr Hubert
Rochracker, who says, "The human body sends out minute
vibrations that, for good or ill, affect all our daily
lives."

Norman
Hillier of New York, speaking at a convention of the
National hair Dressers and Cosmetologists Association in Des
Moines, IA, said, "A quarrel with her husband will have
repercussions in miladys hair in five minutes." It reduces
the life of a permanent.

The United
Press (July 7, 1949) under a Paris dateline quotes two
Frenchmen, Jules Clate and Andre Coatrieux, "Every metal and
every person, living or dead, sends out short waves of
different length. Personal wavelengths are as individual as
fingerprints. Eventually we hope to develop it for
diagnosing disease."

You are all
acquainted with the work of Dr J.B. Rhine of Duke University
I extrasensory perception and his study of the mind and the
way it can control things. Every doctor has recognized the
effect of the emotions upon the physical body. Expression
such as "that man gives me a pain" and "this business makes
me sick" may be literally true, according to Dr Edward Weiss
of Temple University Medical School. "The body has some sort
of 'organ language' for the outlet of tense emotions, which
mimic almost any disease", said Dr Weiss.

The work of
Dr Felix Bloch and his group at Stanford University and by
Dr E. M. Purcell and his group at Harvard, the two groups
working independently but simultaneously in 1945, confirmed
the work of Dr Rabi and carried it further.

Anyone who is
interested will find that hardly a week goes by without some
press article or technical reference that ties in and
touches on some phase of this phenomena.

**Eloptic
Energy**

A form of
energy hitherto unknown has been discovered, and a basic
patent has been issued covering its use.

The name
ELOPTIC has been coined and assigned to the energy. The word
is taken from the first two letters of electricity and the
word optic, because the energy has some, but not all, of the
characteristics of both those forms of energy.

Eloptic
energy radiates from or is in some manner given off from, or
forms a force field around, everything in our material world
under normal conditions at ordinary room temperature and
without any treatment of any kind. Each element and
combination of elements that make up our material world
gives off this energy; however, the energy from each element
differs in frequency from the radiation coming from every
other element. Thus, we have a means of determining the
contents of an unknown material by analyzing the radiations
from it without in any way destroying or disturbing the
object or material in question, or having to excite it in
any manner.

Eloptic
energy obeys certain laws just as does electricity, heat and
light, and we have uncovered man, but not all, of these laws
and have learned much about the utilization of eloptic
energy.

Just as
electricity in its infancy had few uses because little was
known about conductors, insulators, and the laws governing
the action of the force, so is the use of eloptic energy
today limited only by available technology.

We have
barely scratched the surface of the possibilities; however,
there are quite a few uses that have been developed and much
is already known about the behavior of eloptic energy.

We have
identified the radiations from over one-third of the
elements of material matter; the ones easily obtained in
relatively pure form such as beryllium, carbon, magnesium,
aluminum, iron, copper, zinc, silver, tin, tantalum,
platinum, gold, lead, bismuth, etc. Carnotite ore has been
analyzed for radium and uranium. Many ore samples have been
analyzed to determine the various elements contained in
them, and the findings have been verified by more extensive
chemical, spectrographic or other analytical methods.

Combinations
of two or more elements give off a characteristic frequency
of radiation by which the combination may be identified. For
example, hydrocarbons such as benzene and toluene have been
analyzed and the findings verified by spectrographic and
chemical analysis.

Each of the
tissues of the body give off a characteristic frequency of
radiation by which it can be identified and the virility or
vitality of the tissue may be determined by noting the
intensity of the radiation.

Each disease
entity gives off a characteristic emanation by which its
presence in the body and something of its virility may be
determined.

Eloptic
energy can be conducted along light rays, focused with
lenses, refracted with a prism and its effect implanted upon
photographic film.

An aerial
photograph film taken at several hundred thousand feet
elevation can be used to determine what was in the objects
photographed on the ground, such as people and metals in
buildings, cars, etc.

The apparatus
can be set for any elements such as iron, a stylus placed on
the spot on the film to be analyzed, the energy implanted on
the film can be picked up by the stylus, conducted through
the instrument, and if there is the eloptic energy of iron
on the film it is evident that there was iron on the ground,
radiating the characteristic iron frequency even though not
visible to the eye.

Plants can be
analyzed to determine whether the root, stem, or fruit
contains the elements necessary for proper nutrition, such
as iron, copper, manganese and other trace elements. The
plant or fruit can also be analyzed to determine whether it
contains arsenic or other poisons from sprays.

Foods,
poisons, drugs, etc., can be checked to determine their
effect upon the body or any particular tissue of the body.
Those foods or drugs to which a person is allergic and those
which are compatible can be quickly identified.

Just as a
photograph can hold the emanation of the object
photographed, so can a specimen, an article of clothing, a
drop of blood, urine or perspiration carry the emanations of
the person from whence it came.

Such a
specimen will carry all the emanations from all parts of the
body of the person from whom the blood was taken. Its
emanation and those taken directly from the body of the
person will be the same. Thus, many of the characteristics
of the person from whom the bloodor clothing came can be
determined.

Thus far,
only the analytical phase of the utilization of eloptic
energy has been discussed, and that only in a very limited
way; but it should be evident that eloptic energy has
desirable applications in the fields of: (1) Laboratory
chemical analysis, (2) Mining, (3) Prospecting, (4)
Medicine, (5) Nutrition, (6) Animal husbandry, (7)
Horticulture, (8) Military intelligence, (9) Criminology,
and (10) General betterment of humanity.

Naturally, as
time goes on and research is continued, many additional uses
for eloptic energy will be discovered. We already know that
eloptic energy can be generated or picked up from a natural
source, filtered, amplified and directed into a tissue of
the human body, a plant or animal to produce certain desired
effects.

**Refraction**

When the
eloptic energy from an unknown material is caused to refract
through a proper prism, it behaves in the same manner as
energy from the visible portion of the spectrum, except that
the angles of refraction are much more acute.

It must not
be inferred that eloptic radiations and visible light and
ultraviolet radiations are the same or related because they
all may be refracted through the same prism or that the
frequencies are related. Eloptic radiations will behave
similarly to the radiations of the electromagnetic spectrum
in some respects and entirely different in other respects,
showing that they are probably not the same energy at all.

For this
reason I prefer to call it the Finer Media.

A 31.5 deg 
glass prism with an index of refraction of 1.505 was used in
one experiment (see circular coordinate chart). Eloptic
energy from a number of elements was caused to enter the
prism at an angle of incidence of 5.5 deg .

Using the
face of the prism as "0", carbon (element # 6) refracted at
an angle of 18.25 deg to the face of the prism, and bismuth
(element # 83) at 48.25 deg. Later, hydrogen gas was found to
refract at 16.45 deg, a range of 31.8 deg for 83 deg of the elements
of the material world.

Another
arrangement employing a 24 deg  prism with an angle of
incidence of 17 deg showed hydrogen approximately 7 deg from the
face of the prism, and bismuth at 62.3 deg, or a range of 5.3 deg
for the same 83 elements.

A 19 black
plexiglass prism of 1.847 index of refraction with an angle
of incidence of 19 allowed bismuth to refract through at
approximately 65.7 deg and carbon at 12.15 deg. All of the angles
were measured with a protractor in a somewhat crude way
because of the construction of the apparatus, but they are
very close to being correct.

If a 90 deg arc
is drawn with the center at the point of eloptic energy
emergence at the face of the prism, between a line projected
out in the direction along the face of the prism, it will be
found that all of the radiations are refracted out in this
quadrant (see Prism Refractor sketch). If the arc of the
quadrant is divided into 1600 parts with "0" on the line
extending along the face of the prism and 1600 on the line
perpendicular to the face of the prism, then it will be
found that with a certain apparatus arrangement, one of the
isotopes of beryllium (Atomic # 4) refracts through at
approximately 186 on the scale and that bismuth (Atomic #
83) refracts through at 1097 on the scale, and all of the
other elements and their various isotopes refract through in
their proper relationship, the one having the lowest nuclear
weight indicating a higher frequency and a more acute angle
of refraction, and the one with a heavier nuclear weight
indicating a lower frequency and emerging at a less acute
angle. The tests show that eloptic energy obeys some of the
laws of refraction just as does the visible portion of the
electromagnetic spectrum.

![](1ppr1.gif)

**Radiation
from the Nuclei of Elements**

A series of
experiments has been carried out that points rather
conclusively to the assumption that the radiation that comes
from the various pure elements is from the entire nucleus
and not from the planetary electrons or from either the
neutrons or the protons alone.

The best
obtainable pure specimens of the elements Titanium,
Vanadium, Chromium, Manganese, Iron and Nickel were used.
Tests were run on Radiation Analyzer # 508. Energy peaks
from these elements were measured and the prism dial
settings for each peak were noted. A study of the number of
energy peaks for the various elements indicated that the
number coincided in most case with the number of isotopes of
the respective elements.

One important
item was that one of the peaks for chromium and one for
titanium were very close together; that is, they refracted
through the prism at near the same angle. The same for
another peak of chromium and one for iron, and another for
an iron peak and a nickel peak.

The number of
protons in each of the isotopes was multiplied by their
individual mass weight of 1.00758 and the number of neutrons
were multiplied by their individual mass weight of 1.00894
and the two products added to get a factor representing the
differnce in two isotopes of the same nuclear particles but
with a different number of neutrons and protons in each
nuclei.

Thus,
titanium with 22 protons and 28 neutrons has a factor of
50.41708, while chromium with 24 protons and 26 neutrons has
a factor of 50.41436, a difference of 0.00272, chromium
being the lighter, in nuclear weight.

Titanium = (
22 x 1.00758 ) + ( 28 x 1.00894 ) = 50.41708   
Chromium = (24 x 1.00758 )
+ ( 26 x 1.00894 ) = 50.41436   
Difference = 0.00272

These factors
and the prism dial settings were  used to produce the
curve shown (Nuclear Weight Factor vs Prism Angle). One
outstanding fact noted was that the lighter the factor
value, the lower the dial setting or higher the frequency of
the emanating energy. Another was the smoothness of the
curve. Nearly all points are in proper relationship.
Irregularities are probably due to slight variations from a
true flat of the prism surface.

While
plotting this curve, it was noted that in a few cases, there
were apparently too many energy peaks for some of the
elements. Further study revealed that there were radioactive
isotopes of the so-called man-made variety that would fit
into these spots. It had already been noted that known
radioactive elements gave a much more violent radiation than
the so-called stable variety. Tests were then made on the
various isotopes to determine the distance that the
radiation, or rather, the force field, seemed to extend out
from the specimen. Vanadium showed that the three isotopes
radiated 18.5", 5.5", and 15.5" respectively, indicating
that apparently the middle one was the stable one and the
other two were radioactive. The same thing was done for Iron
and the distances were 16.5", 8.5", 17", 13" and 10"
respectively. This looked like there might be a discrepancy
as there should not be a radioactive isotope at the point of
higher degree of radiation. A reference to the percentage of
material usually found in the various isotopes showed that
the isotope that radiated 17" was the one that runs about
90.2% prevalence. It could be that some of the iron of this
weight was radioactive or there might have been some
contamination from manganese which has a radioactive isotope
of the same weight.

After this
same procedure had been followed for all the places where
there might be a question, and everything seemed to fall
into proper place, it was decided to try it on elements at
the heavy end of the list. Bismuth showed four isotopes in a
row with radiation distances as follows: 13" for the stable
and lightest isotope, and 24.5", 22", and 26", respectively,
for the radioactive isotopes. Then a gold link bracelet of
very old gold, an heirloom made before the days of so much
alloying, was used. The lightest was the stable isotope with
a radiation distance of 6", with two others of 12.75" and
14.5" for the two radioactive isotopes.

![](1ppr2.gif)

![](1ppr3.gif)

**Molecular
Combinations**

The field of
exploration into molecular combinations is too vast to be
covered in this paper. In fact, not enough work has been
done to warrant such detail.

The chief
chemist of the analytical laboratory of a large corporation
learned, through a mutual friend, about some of our work
while the patent application was being processed in
Washington and were not too anxious to divulge much
information, but after several letters we agreed to help
him. One of his letters said, "We have recently expanded
into a new field of research and some of the problems
encountered are giving us a great deal of trouble. Your
apparatus may be the answer."

We allowed
him to bring his specimens to our laboratory and we spent
two days with him, most of the time in getting equipment
ready for the tests. Finally, we analyzed the contents of
four bottles marked A1, A2, A3, A4. We had no idea
beforehand what was in them.

We poured a
small quantity of liquid from bottle A1 into a pyrex beaker,
placed it in the instrument, and proceeded to "tune in" to
all the "broadcasts" that came from the beaker and its
contents. Then we did the same for the liquid in bottles A2,
A3, and A4. As soon as we had listed the five energy peaks
from the empty beaker, six from A1, nine from A2, four from
A3and nine from A4, and had charted them with relation to
each other, the chemist said, "Now I know my trouble. A1 is
a solvent that works fine, A2 is supposed to be the same.
Our tests and those of the oil company who sells it to us
say it is the same as A1, but it will not work right and is
causing us much trouble. It is quite obvious that A2 has
been contaminated by A4, which is toluene. A3 is benzene."

The three
contaminants marked (\*) were in both solvent A2 and toluene.
The empty beaker contained oxygen and boron, silicon and
calcium, per Corning Glass Company and a separate
spectrographic analysis.

He took a
copy of our test data back with him, and in about a month he
wrote, "We have finished our chemical and spectrographic
analyses on the production solvent samples we tested in your
laboratory, and I have gone over the data obtained in your
laboratory. Toluene has nine characteristic groupings within
the molecule, five of these are unique to toluene and four
are also found in the benzene molecule. The data from your
laboratory is consistent with these facts."

![](1ppr4.gif)

**Progress
to Date**

Think of
electricity today and then try to picture Ben Franklin with
his first "condenser" charged by electricity from a cloud
via a kite string. Perhaps some of you remember seeing in
museums some of the early day electrical apparatus and how
peculiar it appeared. Remember the first crystal detector
wireless set you ever saw, and then look at a modern radio
installation.

We are just
now learning which materials are conductors and which are
insulators of eloptic energy. Our present apparatus is very
crude compared with what we expect it to be in a few years
with the help of physicists who really want to develop this
idea.

Our present
method of detection depends upon the sense of touch of the
operator and that requires training, just as a chemist, a
radio operator, a good cook, an artist, all require
training. Some day we will have learned more about eloptic
energy so we can get it to ring a bell, light a light, or
actuate a meter. Until then, we will be dependent upon
present methods.

We have been
able to impose eloptic energy upon an electric current and
amplify it, but since it is not electricity it alone will
not operate electrical devices.

So far we
have found nothing that does not lend itself to being
analyzed as to its elemental content with the exception of
the air around us and those materials of which the apparatus
is composed, unless there is a fair quantity available.

Despite some
of the limitations and apparent crudity of the apparatus and
techniques sofar developed, it can do things in the
laboratory in a few minutes that are absolutely impossible
or may take long periods of time by chemical analysis. It
can quickly point the way for chemical analysis to follow in
order to eliminate many of the time-taking tests when an
unknown is to be analyzed. It is especially valuable where
there is only a small quantity of the material available. A
drop of unknown liquid will work better than a gallon. The
material to be analyzed is on no way changed or destroyed
during the analysis. Only the emanation normally radiating
from it are utilized.

We are not
chemical engineers, physicists or mathematicians, but we
have spent over a quarter of a century observing and
experimenting, blindly most of the time, to uncover a force
or energy or phenomena, about which there had, until
recently, been nothing written that we might follow.

When the US
Patent Office issues a basic patent with half a dozen method
claims covering the use for analysis of an energy that was
not mentioned in any acceptable standard text, it should be
quite evident that this is not a wild dream of a disordered
mind.

---

**Unidentified
Publication/Author**

**The 
Effect
of
Magnetism on Eloptic Radiation**

A major
problem in prospecting for minerals with the Eloptic Energy
Analyzer proved to be precise location. Experiment had
demonstrated that the energy from buried metal, etc.,
spreads around it on a very large irregular pattern, varying
in shape and size from day to day and even from hour to
hour. It had also been observed on a small scale that this
energy can be influenced by magnetism. Therefore it was
decided to explore the possibility of using magnets in the
field to eliminate or concentrate the diffused energy.

For this
purpose, several ounces of sterling silver were buried about
30 inches deep in a level, open field. The Analyzer was
placed nearby and its input was connected to a long
insulated copper wire. On the end of this was fastened a
test probe.

To determine
how far the energy extended from the buried silver, the
probe was driven into the ground successively at various
distances along several radii, and readings were taken on
the Analyzer. In this way the field of radiation was found,
at that time, to form an irregular "pool", extending not
less than 50 feet from the silver and mostly very much
farther.

Now two
magnets were made, hollow core solenoids drawing about
10amperes at twelve volts. These were paced on end about 20
feet due east of the silver, and iron rods (5/8" by 4 ft)
were driven through them and about two feet into the ground.

At first
three batteries (18 volts) were connected, and about an hour
was allowed for the energy field to adjust itself. Then
tests were run as before with the Analyzer, and it was found
that the field had shrunk considerably. Following this, two
more batteries were attached and additional tests were made.
The energy field was now found to have shrunk still farther,
and to possess a more simplified outline showing certain
definite characteristics. Toward the East it terminated near
the magnets, and to the Northwest it exhibited a pronounced
bulge of about 15 or 16 ft radius.

At this point
the two magnets and batteries were moved to within 12 ft of
the silver and two more batteries were added, making 7 in
all (42 volts). Measurements with the Analyzer now showed
that the energy pool had completely disappeared as such.
There remained only two well defined bands or streams of
energy about a foot wide. One of these extended along a
straight line connecting the silver and the magnets, and the
other thrust out about 8 ft toward the Northeast, then
turned and proceeded directly to the magnets. Further tests
with the Analyzer showed that the energy drawn to the
magnets appeared to dissipate itself above them and over the
batteries in a kind of plume.

This
experiment demonstrates that this energy is definitely
subject to magnetic attraction. It also shows that the
energy exhibits a strong tendency to flow toward the
Northwest.

---

**US
Patent # 2,482,773**

**Detection
of Emanations from Materials & Measurement of
the Volumes Thereof**   
**(Cl. 250-63) Sept.
27, 1940**

**Thomas G.
Hieronymous**

This
invention relates to the art of detecting the presence of
and measuring the intensity or quantity of any of the known
electrochemical series of elements of material matter, or
the combination of two or more such elements, whether in
solid, fluid or gaseous forms at ordinary room temperatures
and without special treatment or requiring any change in the
material under observation.

The primary
aim of this invention is the provision of a method and
apparatus for detecting the presence of any element or
combination of elements that may be in the substances under
observation and to determine the intensity or quantity
thereof.

This
invention has for a still further object to provide a method
and means for detecting the presence of and analyzing and
measuring the quantity or intensity of elements or
combinations of elements in the substance under observation
through the capture and analysis of radiations emanating
from the said elements, whether the said radiations be of
electrical or optical characteristics, or both.

A yet further
aim of this invention is to provide an instrument having a
reaction device, the surface whereof is affected by the
introduction of radiations thereto, in such a manner that
the surface of the device will have its ability to resist
movement of articles over its face changed when energy flows
through the apparatus, of which the reaction device is a
part.

A further aim
of the invention is to provide an atomic radiation analyzer,
having as one of its important elements, a reaction device,
the surface whereof is affected to increase adhesion or
friction as the operator of the analyzer strokes the surface
of the device and manipulates the instrument to direct
radiation thereto.

It ahs been
discovered that there are radiations emanating from or
released from each of the known elements constituting
material matter. These radiations occur at ordinary room
temperatures, i.e., 40 deg F to 90 deg F and they have electrical
and optical characteristics and frequencies which are
disposed in the zone from the violet ray portion of the
visible spectrum up into the ultraviolet portion, which zone
has as yet not been fully explored. Since it has been found
that these radiations from the elements or their effect may
be carried over electrical conductors, it is the object of
this invention to provide apparatus having suitable
conductors and parts so that analyzing of substances may be
accomplished. The radiation or the effect of such radiations
from known elements or combinations of two or more elements
of material matter may not only be carried over electrical
conductors and handled in a manner similar to an ordinary
electrical currnet, but they may be affected by electrical
capacity inductance and resistance. The radiations may also
be refracted, focused, diffracted or otherwise manipulated
in the same manner as the radiations of the visible
spectrum. Accordingly, therefore, this invention has for one
of its aims to provide an instrument for handling the
radiations, identifying their presence, analyzing them and
measuring their intensity --- all to the end that the
presence of one or more of the known elements may be
concluded from the character of the radiation as determined
by the behavior of the analyzing device and the values read
from the appropriate scales forming a part of the
instrument.

Other objects
of the invention will appear during the course of the
following specifications, referring to the accompanying
drawing, wherein:

**Figure 1
is a schematical and diagrammatical view illustrating an
instrument for detection of emanations from materials and
measuring the volumes thereof, made in accordance with the
present invention.**

![](1fig1.gif)

**Figure 2
is an enlarged detailed fragmentary schematic view
illustrating a portion of the instrument shown in Figure
1.**

![](1fig2.gif)

**Figure 3
is a fragmentary elevational view of a chart, usable in
connection with the instrument, to translate the scale
readings into identification of the substances; and**

![](1fig3.gif)

**Figure 4
is a diagrammatical view illustrating another type of
radiation refracting member, capable of forming a part of
the instrument illustrated in Figure 1.**

![](1fig4.gif)

Prior to
referring specifically to the parts of the apparatus
diagrammatically illustrated in the drawing, clarification
of the theory upon which the invention is predicated will be
made by explaining experiments heretofore conducted and
capable of proving the phenomenal theories hereinafter
disclosed as having a bearing upon the practicability and
utility of both the electrical and optical apparatus.

Radiations
from each of the known elements of matter produce some form
of energy, probably electrons which can be made to flow
along electrical conductors. The flow from each of the
elements having characteristics different from the others.
Conversely, the flow of electrons along a conductor produces
a radiation having characteristics of the radiation from
each respective element.

Such of the
known elements as are required to feed growing plants have
been transmitted to the plants through metallic conductors
as the plants were entirely isolated from the elements upon
which they were fed. More precisely, seeds were planted in
boxes in a darkened basement room. One of the boxes of
plants of plants containing some of the seeds was used as a
control and no apparatus for transmitting element radiations
thereto provided. The remaining boxes of plants had
electrodes or plates of conducting material mounted or
otherwise disposed adjacent thereto, and each box of plants
was separately attached to a conductor extending to a plant
outside the building where electrodes or plates were
attached to a conductor extending to a point outside the
building where electrodes or plates were attached to the
conductors and allowed to remain exposed to the light. Such
of the known elements as required to impart normal
characteristics to the plants were apparently fed thereto by
having the radiations of the elements from the light
conducted to the plants through the wires and associated
electrodes. The treated plants were relatively healthy but
the control plants assumed the characteristics of growing
vegetation which has been deprived of the elements in
natural light. Particularly was the control plant devoid of
chlorophyll while the remaining plants were green.

Apparatus for
laboratory or commercial use and for detecting the presence
of any of the known elements, preferably relies upon the
element of touch, and therefore the skill of the operator.
The instrument diagrammatically illustrated in Figure 1
comprises a unit 10 including a coil 12 disposed to pick up
radiation from substance 14, wherein the known elements are
disposed and that are to be detected. The temperature of
substance 14 may be within the range of from 40 deg to
90 deg  F, but such temperature is not critical. This
range has been found satisfactory in actual practice.

Coil 12 may
be a spirally wound flat body approximately 2 inches in
diameter and formed of magnet insulated wire of any
conventional size. As an alternative, this coil 12 may be a
single layer, cylindrical coil, wound on an insulating
material substantially 1 inch in diameter. The examples
given for this coil 12 are not critical and so long as the
coil is in the field of radiation of substance 14, the
purpose of unit 10 will be fulfilled.

Instead of
employing coil 12, wire 20 may be directly connected to
substance 14 or wire 20 may be terminated in an electrode
and the latter disposed with relation to substance 14 as to
pick up the radiations therefrom, as does coil 12 in the
illustrated embodiment. In this case, wire 18 may be
grounded or connected separately to substance 14 or
terminated in another electrode which may also be placed
near substance 14. The proximity of substance 14 to coil 12
or the electrodes as the case may be, is such as to be
within the field of radiation of the emanations from
substance 14.

Apparatus 16
is a manually manipulatable analyzer tuneable to the
specific radiation desired. It consists of two principal
parts, the first being the two standard type of variable
condensers, 22 and 24, and the second being the ray
refracting device made up of electrode 32 --- passageway 36,
prism 28, and electrode 38, all as shown in Figure 2.
Apparatus 16 is joined to unit 10 by conductors 18 and 20
across which is disposed a conventional variable condenser
22 and with which is employed a condenser of similar type
24, located in conductor 26, as illustrated. Variable
condensers 22 and 24 may be of standard radio broadcast type
and they are provided with graduated scales in conventional
manner.

Prism 28 is
of any suitable ray defracting substance as glass, quartz or
analogous materials. In practice a prism 28 having two
polished faces disposed at angles from 30 to 60 degrees has
proved satisfactory. An electrode 32 is joined to coil 12 by
conductor 20 and conductor 34. Stationary electrode 32 may
be of any electrical conducting material such as aluminum,
brass, copper or substances having analogous electrical
properties. The distance of electrode 32 from prism 28 is
not critical so long as the radiations or emanations reach
prism 28 through a confined path of travel in the nature of
a thin band or line. In practice, this distance was from
one-half to two inches. A passageway 36 formed between a
pair of optically opaque insulating elements directs the
radiations to a desired area on one face of prism 28.

The angle of
incidence of this path of travel to the face of the prism 28
was of the order of 5.5 degrees for best results and for
obtaining the wisest useful segment along scale 31.

An electrode
38 shiftable along scale 31 is joined to unit 40 by
conductor 42. Electrode 38 is of the same specifications as
to materials and distance from prism 28 as electrode 32 but
is suitably mounted for movement adjacent to scale 31 where
its position may readily be indicated by a pointer 78
moveable therewith and extending outwardly therefrom toward
scale 31 in alignment with the path of travel of the thin
ray of energy indicated by the line 76. The axis of rotation
of electrode 38 is substantially on a median line extending
longitudinally across the face of prism 28 proximal to
electrode 38. Electrodes 32 and 38 work best when they are
relatively thin and of the order of a few mils thickness.

As
illustrated in Figure 2, scale 31 is calibrated with indicia
44, and these indicia are on chart 46 along one edge
thereof. The indicia on chart 46 have been given a
corresponding reference numeral to those on scale 31 for
clarifying the description hereinafter set down. Indicia 48
on chart 46 designate the atomic weight of elements of
matter and continue up to include all known elements of the
electrochemical series when the full size chart is employed.

Unit 40 is a
variable resistor. It may be either a continuous variable
type or it may consist of a series of non-inductive
resistance units 50, 52, 54 and 56, each adjusted by a
switch having movable points 62, 64, 66 and 68 respectively.

In practice,
unit 50 will have ten times the resistance of unit 52, which
in turn is ten times the size of unit 54, etc. (The values
may range from fractions of 1 ohm up to several megohms).
Unit 50, e.g., might be 1 megohm in steps of 100,000 ohms
each; unit 52 would then be 100,000 in steps of 10,000 ohms
each; unit 54 then would be 10,000 ohms total in steps of
1,000 ohms each, and so on until the smallest unit would
have steps low enough to give the desired exactness to the
measured volume or intensity of the radiations.

Unit 40 is
joined to unit 70 by means of an untuned radio frequency
type transformer 58 through the medium of conductors 42 and
60. Unit 40 may be joined to unit 78 by resistance coupling
or other conventional coupling of the type frequently used
in standard broadcast radio receivers and which is analogous
to transformer 58.

Unit 70 may
be a conventional three stage tuned radio frequency
broadcast band type of amplifier with the usual variable
resistances omitted or it may be of the resistance coupled
or impedance coupled type often used in radio broadcast type
amplifiers. Said amplifier intensifies the value of the
radiations reaching it so that the effect upon detector 72
is clearly discernable. Under some conditions, the reactions
from unit 40 may be put directly into detector 72 without
interposing unit 70 but amplification of the radiations is
desirable.

Detector 72
is a device that will indicate a change from its normal
state when the radiations from the analyzer 16 are caused to
influence it.

Detector 72
is preferably an electrical conductor coated with a material
having such characteristics that under the influence of
energy flowing through the conducting portion, the coating
will change its surface tension or viscosity, or in some
manner give evidence of the presence of the energy flowing
through the conducting portion by producing a greater drag
or resistance to the movement of any part of the body of the
operator thereover, such as the hand or fingers. It has been
found practical to use a metal plate covered with a sheet of
plastic or coated with lacquer, which plate is of an area
convenient for stroking with the tips of the fingers or the
palm of the hand. It may also be a sheet or plastic with a
coil similar to coil 12 disposed adjacent thereto and
connected to the coupling transformer 14.

Figure 4
illustrates another form of that part of unit 16, sowing
Figure 2, so far as the element separator or filter portion
thereof is concerned. This separation or filtering is
accomplished in the embodiment illustrated in Figure 1 and
Figure 2 by prism 28. In Figure 4 a lens 100 has the
electrode 32 disposed adjacent thereto and movable electrode
38 is shiftable toward and from lens 100.

Scale indicia
44 are disposed in a line parallel to the path of travel of
electrode 38 and the element or elements involved will be
determined by the location or the scale of pointer 78 at the
instant a reaction is obtained at detector 72.

Chart 46 is
of course produced as a part of the complete apparatus when
such apparatus is manufactured and after prism 28 (or lens
100, as the case may be) is installed as a unit of the
material detector. A small quantity of each of the known
chemical elements is placed adjacent to coil 12 and with
full knowledge of the element, the angle of radiation formed
by line 76 and, the face of the prism 28, is determined and
the degree numeral on scale 31, which identifies the angle
of radiation, is placed on chart 46 as one of the indicia 44
(degree readings from scale 31) and indicia 48 (the atomic
weight of the known elements) then when the apparatus is in
practical use, any material or substance may be located
adjacent to coil 12 and its components definitely determined
by positioning electrode 38 on a line of radiation 76 where
the degree number on the face of the scale 31 is quickly
read and used by referring to chart 46. When the degree
indicia 44 is so located, the line on chart 46 extending
therefrom is followed until it reaches the diagonal line 45
on chart 46 whereupon the operator then follows the
intersecting line to the lower edge of the chart where the
value of the atomic weight 48 is read. These atomic weights
are well known and are used in conventional texts and
scientific works.

In practice,
for example, let it be assumed that substance 14 contains
calcium but it is not known that such is the case. The angle
at which the unknown ray or radiation leaves prism 28 will
teach its name form as the operator moves the fingers over
the surface of detector 72, electrode 38 is shifted slowly
and pointer 78 moves along scale 31 until a greater degree
of adhesion or resistance to motion at the surface of the
detector 72 is set up. This occurs when the energy or
radiation flows from unit 16 through units 40 and 70 into
detector 72. When electrode 38 is at a position where it is
intercepting a radiation from prism 28, or lense 100, the
resistance to stroke at detector 72 will be of highest
order.

As soon as
electrode 38 has been positioned as described, variable
condenser 22 is adjusted while the operator continues to
stroke detector 72 to a position where the greatest drag at
detector 72 is again manifested. Next, variable condenser 24
is similarly manipulated to obtain a setting where the drag
at detector 72 again reaches a maximum. Electrode 38 is then
readjusted for a final position. The employment of
condensers 22 and 24 insure a more accurate setting of
pointer 78 by virtue of their additional filtering action.

In the
illustration, electrode 38 has intercepted the path of
radiation with pointer 78 at the numeral 30 on scale 31 and
reference to chart 46 will teach the operator that the
element having atomic weight 79.2 is that from which the
radiation along dotted line 76 is traveling. If atomic
weight 79.2 is calcium then that element in substance 14 has
been located.

The manner of
using lense 100 is substantially the same as described in
connection with the use of prism 28. The focal point of
paths of radiation of the elements will cause detector 72 to
react and establish a drag to the operators touch,
whereupon the scale 31 may be read and its reading
translated by reference to chart 46.

What actually
happens at detector 72 to increase or decrease it drag to
the touch of the operator, is not known but the apparatus
functions as above set forth when constructed as specified,
and therefore, a positively acting analyzer for atomic
radiations is produced even though the principle upon which
it is based is not fully known.

Radiation
from hydrogen passes through prism 26 at the sharpest angle
or at the lowest degree measured from the face of prism 28.
Radiations from other elements and their isotopes pass
through prism 28 at greater angles but in the same order as
their atomic weights --- the heavier the element or its
isotope, the wider the angle.

A substance
composed of two or more of the known elements may be
analyzed as herein set down to determine its component
constituents. The substance itself which consists of two or
more known elements may be identified because the emanations
therefrom will produce a composite frequency peculiar to
that combination of elements. All combinations may be
charted in precisely the same manner as herein described for
all the individual known elements in the electrochemical
series.

Unit 40 is
used to measure the intensity of the radiations from a given
element or substance by adjusting the several switches
comprising unit 40 until the maximum amount of resistance
has been introduced into the circuit without interrupting
the reactions manifested at detector 72. The switches are
calibrated in conventional resistance values and a chart
must be prepared that will relate the value indicating by
switch setting of unit 40 the quantitative units of
measurement.

It is
realized that apparatus for detecting materials and
measuring the volumes thereof, having physical
characteristics different from those illustrated and
described, might be made without departing from the spirit
of the invention or scope of the appended claims.

Having thus
described the invention, what is claimed as new and desired
to be secured by Letters Patent is: [Claims not included
here].

---

***Journal Of Borderland Research*
(Sep/Oct 1990) page 22**

**"Conducting
Chlorophyll Energy over Wires"**   
**by Dr. T. Galen Hieronymous**

About 1930, I decided to try an experiment of
conducting Chlorophyll Energy over wires. I had been
conducting Eloptic Energy over long distance via wire.

A wood platform was installed on the south side
of the house about six feet above the ground in order to get
the desired potential of energy which increases with distance
above the ground.

Having some wooden cigar boxes available, I cut
boxes apart and cut pieces and made eight boxes that were 2" X
2" X 4" although any size boxes will work.

Aluminum foil was placed on the bottom of seven
boxes inside so as to be in contact with the soil.

Similar pieces of foil were placed on the
underside of the lid of each box.

Wires were connected to each piece of foil, the
wires from the lids were extended to the sun plates, the wires
from the bottom foils were connected to the water pipe and
thus grounded.

**See Figure #2 (on the right) for details of
the box construction.**

![](hier2.gif)

**Refer to Figure #1 which shows a 'side' view
of the installation.**

![](hier1.gif)

**Figure #3 shows the system of connections.**

![](hier3.gif)

Seven plates were placed on the platform so as
to pick up energy from the sun and a wire was connected to
each plate and extended down into the basement, each box
having the top foil plate connected via wire to a plate out on
the platform in the sunlight. The eighth box had no connection
to the outside, it being the 'control'.

The plates on the platform were all different in
size. The smallest was 2" X 4", the next 4" X 8", the largest
was about 8" X 10" and one plate was copper screen wire.

Some dirt was screened and 1/2 inch of dirt
placed in each box. Oat seeds were selected, all of uniform
size and planted in two rows of 5 seeds spaced in each row,
the 1/2" of dirt was placed on top in the box. The same amount
of water was added to each box as needed from day to day.

All of the seeds sprouted about the same time.
Then we noticed that there was no chlorophyll in the 10 plants
in the control box. All of the boxes connected to outside
plates had plants with much chlorophyll.

We were quite surprised to note that the plants
in boxes with large outside plates seemed to look as if they
had been subjected to heat. Apparently the large outside
plates were bringing in an excess of energy compared with the
effect of the small size outside plates.

Very soon, the plants grew too tall for the
small amount of 'head room' in the boxes so each box was
equipped with a spacer to raise the top of each lid up about
3/4".

The boxes were placed on a shelf in the end of
the basement where there was little light, with no windows at
that end. Also, the shelf was kept dark by a board placed in
front and another on top to exclude all light. The plants were
dark all of the time except when they were examined by a
flashlight.

A friend tried to duplicate the experiment, but
did not follow all instructions. Their basement was only about
3 feet from the basement floor to the ground level outside.

Instead of placing the outside plates above
ground 6 feet, they laid on the ground, thus they did not have
the potential differences between outside collector and inside
boxes and the experiment was a failure. Also, there was a
window near that let much light into where the boxes were
placed.

Anyone who expects to duplicate an experiment
should be sure they know all the factors and that they follow
the instructions exactly without any substitution or change.
And as to changes, if you are trying to get a special result
and are trying out several methods or ideas, one of the
cardinal points to doing good work is to make just one change
at a time.

Then you know just what the results are. If you
make two changes and the result is a failure, you do not know
but that one of the changes and the results is a failure, you
do not know but that one of the changes may have been alright.

---

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