FILENAME: CHAP1A CHAPTER ONE The Universal Hologram SCIENTIFIC authorities aver that the
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The Universal Hologram
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SCIENTIFIC authorities aver that the fourth dimension is a
concept of purely abstract mathematics, and no human intellect
can possibly visualize a tangible hyperspacial structure.
The natural reflex of lay people to proclamations from
Olympus is to believe the gods without question  especially if
you don't know what they are talking about. If you can resist
your Unconscious reflex to suspend your disbelief, however, your
critical faculties will be aroused to demand an explanation. And
you want to be told in terms you can understand; an explanation
you can't understand is no explanation at all  like being
paid money you can't spend.
An expert can't explain anything to you unless he knows
what you can understand. Therefore, it is necessary for you to
tell the exegist what you know before he can begin to tell you
what he knows. So, how do you tell the expert where you are
coming from without drawing a detailed map of your entire life
territory? The expert sees what you know by the questions you
ask him. Now you may wonder what kind of a question tells what
you know, already. The right question to ask for a
comprehendable explanation is the question to which you already
know the answer; any other question will elicit a reply that can
only confuse the matter. You can prove the practicality of this
tactic by observing what happens every time your child asks a
question without knowing what he is talking about. If you can't
think of a question that you can answer immediately, ask a
question for which you know how to find the answer. You can
always find the answer to your question if you ask what the
mystery does and what you can do about it? Directions you can
understand but cannot implement mean that the matter is of no
concern to you, so you are only wasting your time by investing
more than idle curiosity. Anyone who can't give you directions
you can follow doesn't know what you are talking about, and
probably doesn't know what he is talking about, either, so you
are only wasting your curiosity, never mind your belief. The
main importance of knowing the answer when asking questions is
that you also know when you are being answered truthfully, or
you'll find out soon enough.
Ah... so! A good question for starters is what are the
identifiable characteristics of hyperspace that make it
different from the ordinary garden variety of real estate where
you hoe for a living. By strict mathematical definition, at
least four dimensions are required in a space that can hold more
than one (tridimensional) volume in the same place at the same
time. All you have to do to find hyperspace is put two things in
the same place at the same time  and there you have
hyperspace, already. See how easy it is to understand the
inconceivable when you ask questions you can answer?
Now, you are thinking that I am trying you for a fool. How
can you put more than one thing in the same place at the same
time? The directions cannot be followed; therefore, my own
precepts prove I don't know what I am talking about. Trust me,
and follow my directions.
The professor demonstrates the fourth dimension to
undergraduates by placing an object on his desk, then replacing
that object with another object. This is supposed to show that
two volumes can occupy the same volume at different times,
proving that time is a fourth dimension. Do you see where the
professor is breaking the rules? The mathematical definition
specifies that two things must occupy the same place at the same

time before the space can be hyper; occupying the same place at

different times is not the same thing, at all. It is
flabbergasting that profs have been bamboozling students for
nearly a century without anyone blowing the whistle; anyone
presenting this case in law school would be cashiered as soon as
everyone realized he wasn't kidding.
If you want to see real hyperspace, take one very level
teaspoon of coarsely granulated sugar and one very level
teaspoon of water. Now, drip the water onto the sugar until you
have one heaping teaspoon of mixed solution. VOILA! you are
looking at one teaspoonful of 80% pure hyperspace in your hand.
How 'bout that, Mr. Spielberg?
You will object that the water is merely filling the empty
spaces between the crystals and the molecules of sugar. And
there you have it. You have just discovered the principle of
hyperspace. Genius is simply a matter of recognizing what you
are looking for when you find it.
You have just demonstrated that it is possible for two
material volumes to coexist in the same space at the same time
if they are not continuous. In other words, a continuous space

is tridimensional, but a discontinuous space allows another

discontinuous space to occupy the discontinuities, thereby
answering the mathematical definition of fourdimensional
hyperspace. Discontinuous spacetime is what the Quantum Theory
is all about.
The molecules of a solvent do not have enough empty space
between them to contain the molecules of a solute without some
increase in the volume of the solution; the amount of additional
space occupied by the molecular intermixture varies according to
the kind of molecules. There is, however, enough space between
atoms for another kind of atoms to occupy without increasing the
volume of their sum. The proof is found in gas chemistry; when
44.8 litres of hydrogen is burned with 22.4 litres of oxygen,
exactly 22.4 litres of water vapour is produced. When the volume
of oxygen is chemically combined with the volume of hydrogen,
the compounded mixture occupies exactly the same amount of space
as the smaller volume of atoms. Chemistry, you see, is the
applied science of hyperspace. (*1)
A solution is not only a discontinuous structure
manifesting fourdimensional properties, but the molecules
comprising a solution are also so thoroughly mixed that any
sample contains the same information that any other sample
holds, and the information of any sample is identical to the
information of the entire volume. A structure that contains all
the information in every one of its parts, and all parts has the
same significance as the whole, is called a hologram. Solutions

are the original holograms and holograms are hyperspacial

structures.

Although the Greeks had words for wind, some writers say the
Greeks were unable to perceive the existence of still air.
Likewise, hyperspace remains unknown to science simply because it
is manifest as the oceans of air, water, and light we live in.
(SIDE1)
Einstein established the concept of the fourth dimension as
a popular scientific fact, yet, he persisted in thinking of
spacetime as a continuum. You have just seen for yourself, that
it is impossible to contain four dimensions in a continuum. It is
the contradiction between Einstein's calculations and his beliefs
that made him express his Theory of Relativity in words
impossible to comprehend. Contemporary with Einstein, Max Planck
plotted the fourdimensional coordinates of atomic space while
continuing to express himself in tridimensional concepts. And so
the two seminal genius of modern physics argued across the
dimensional gap all their lives, unable to reach an agreement.
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SIDE1
Have you ever seen a threedimensional square?
A square is a twodimensional
figure, by mathematical definition; therefore,
a threedimensional square must be a
contradiction of terms.
A space that can contain more than one
plane structure on the same plane at the same
time answers the mathematical definition of a
hyperplane. Actually, no one ever made this
mathematical definition until now; nobody
thought such a definition would ever be
needed.
Now, project a photographic diapositive
slide onto a screen. The image you see on the
projection plane is twodimensional, isn't it?
Now, project another image onto the same
screen at the same time and look at the
inconceivable mathematical impossibility, two
perfect planes in the same perfect plane at
the same time. The perfect hyperplane is
physically possible because light is the very
discontinuous wave phenomenon by which Planck
discovered and proved the Quantum Theory.
Make this demonstration in school to
show your colleagues the five stages of
psychological repression when the prof flips
into a Freudian crash  provided, of course,
that you have already decided you don't need
an academic degree to support your sex life in
the style to which she wants to become accustomed.

*1 Hyperspace can be deduced from the Pauli Exclusion
Principle; to wit, two particles cannot occupy the same energy
level at the same time. Exclusion is the effect of phase
opposition. Atoms in phase harmony, however, can occupy the
space at the opposite phase of the other. A chemical explosion
occurs when a shock flips the atomic vibrations out of phase
harmony, causing them to repel each other.
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I The Theory of Relativity I
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MATHEMATICIANS define a fourdimensional hypersphere as a
ball containing every point in its volume on its surface. In
other words, a hypersphere is a globe that is all surface,
inside and out. If you are baffled, it is simply because you are
unfamiliar with the verbal statement. You have made hyperspheres
all your life without knowing it by so many words; nobody told
you that reg'lar fellas make a hypersphere every morning because
nobody thought you had to know, so the concept was not included
in high school family planning courses.
Take a sizable piece of tissue paper. It is practically all
surface and practically no volume, isn't it? Now, crumple it
into a ball. VOILA! You got the whole hypersphere in your hand.
The wad is all surface, inside and out, isn't it? (SIDE1)
Books are all surface, inside and out, and no words are so
plane as the written word. Libraries are filled with four
dimensional hypervolumes. Whereas oral communication can be
processed in Consciousness as small as four dimensions, the
written language resists reading by minds no greater than four
dimensions. This is why Johhny can't read after graduating from
high school.
Physicists are puzzled by the way some particles disappear
at one place and reappear elsewhere, with no trace of passing
through the intervening space and time. They say that locations
widely separated in real space are adjacent to each other in the
fourth dimension. The concept of wormholes is postulated to

account for jumps through warps in atomic spacetime; a wormhole
is nothing but a quantum jump that doesn't know when to whoa.
Now, if you look at the wad of paper in your hand, you will see
that points separated by considerable surface distance are in
contact. You are holding a handful of wormholes.
If you could compress the wad to atomic density, every
point on its surface would be practically in contact with every
other point on its surface at the same time, making the entire
wad into one humungous wormhole. Quantum jumps occur on the
atomic scale simply because an atom is all wormhole. A structure
containing every point in contact with every other point is a
hologram. (*1)
=============================================
SIDE1
The human brain has more surface for its
volume than the brain of any other creature.
It is necessary for the human brain to have a
high ratio of surface to volume because the
human nervous system operates at a high
electrical potential. Tesla proved that a
voltage moves to the surface of its conductor
as its charge is raised. If the human brain
does not have enough surface to contain its
charge within its inefficient dielectric,
nervous electricity will arc and the body will
go into convulsions.
As the human brain increases its
surface, the operation of the human mind
evolves from tridimensional activity to
quadimensional activity. The mental faculty
for finefocus is actually splitting hairs to
the fourth dimension. As a focussing faculty,
language comes to us from the fourth
dimension. We have dominion over the beasts of
the field because language raises human
consciousness to a dimension above all the
other animals. If time is a higher dimension,
then we rule the planet because we are
conscious of time, also; words are timed.
The ability of the brain to associate ideas
that are widely separated by a line of logic
is a manifestation of wormholes in the brain
 so you really do need holes in your head.
The TAO says that a cup holds its
contents by virtue of its emptiness. An
absolutely empty cup is all surface, and that
is the end to which the human brain is
evolving. Empty space is all surface, as you
can prove for yourself by simple palpation.
The ambient electromagnetic field is the
Universal Mind of God that has raised its
voltage beyond the capacity of a material
brain. Now you can see that your very own mind
becomes the legendary Divine Cup when it is
perfectly empty, and your own Consciousness
is the very Holy Grail sought by all the more
or less steined philosophers.

* Now that you know a hologram is the product of infinitesmal
division and perfect distribution, you understand that every
pointevent in the universe is in immediate contact with a
REPLICA of every other pointevent in the universe. Particles
don't jump through wormholes; quantum jumps are an illusion
created when a particle accelerates above detectability (i.e.
light speed) by drawing energy from another particle already
above light speed. When the drawn clone drops into detectability
below light speed, the perceived effect is identical to a single
identified particle that disappears in one place and reappears
instantaneously in another.
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I The impossible I
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I indefinite time. I
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EVERY time you slice a ham for sandwiches, you increase the
surface of the meat without adding anything to its volume.
Ultimately, your ham is all surface and no volume. Since a
hypervolume is all surface, division to finality is the physical
operation that converts a tridimensional volume into a
quadimensional surface. The single slice of ham in sandwiches
sold on the Canadian Pacific Railway, fifty years ago, was
shaved so thin that it was practically fourdimensional. Fine
division transforms space from a continuum into a discontinuum.
Fine division is what quantum physics is all about.
The elemental substance of hyperspace is discovered by
gradually dividing a volume until it becomes a mathematically
perfect plane. We shall proceed with this process by way of a
DEDANKEN experiment to discover the perfect fourdimensional
element.
Planets appear to be solid, tridimensional bodies, as in
rigid, but this perception is mistaken. A planet is an

exceedingly viscous fluid under the pressure of its own gravity,
and it is centripetal force that molds both planets and
raindrops into globular shapes. If a giant planet like Jupiter
were divided into a few parts, all the segments would eventually
collapse under gravity into balls. The plastic planet is actually
a mixture of molecules in more or less solution, and you have
just proven that a solution has more than three dimensions,
although not quite four. Life as we know it, and everything in
it, is in between three dimensions and four.
If one of the planetary segments were subdivided
progressively, a critical size would be attained when the
cohesion of the material exceeds the force of its gravity so
that it won't collapse into a ball. At this critical size, the
planet becomes transformed into a chunk. Subplanetary debris is
the nearest thing we have to ideal (tridimensional) volumes that
will congregate by their mutual gravitational attraction.
Trispace is the proper province of gravity, and it is by gravity
that the trispacial world is described.
Dividing the planetary chunk into smaller pieces does not
produce a congregation of smaller chunks as one may expect from
a general understanding of gravity; up to a certain distance,
minute chunks effectively repel each other. Over the course
of time and continued subdivision, the chunks become a belt of
cometary debris extending around the entire length of the orbit.
This observed phenomenon reveals that subdivision of a material
body to a critical size releases a seemingly mutually repelling
force that eventually overcomes gravity. (*1) As trispace is
gradually converted into hyperspace by dividing chunks into
crystals, electromagnetic forces become manifest until gravity
is supervened. Quadspace is the proper province of the
electromagnetic field which defines it.
Subdivision of a chunk eventually reaches another critical
size where individual crystals are defined. When the elemental
crystal is divided, it ceases to be a crystal by reduction to a
clump of molecules. The molecular clump can be divided until a
single molecule remains. At this critical size, one more cut
destroys the molecule into free radicals. After the radicals are
sectored into electrically active atoms, the next cut demolishes
the atom into particles. Eventually all particles are reduced to
electrons; the electron is pure electricity. Notice that the
electrical force and particle velocity increases inversely with
size.
The final sectioning transforms the massless volume of the
electron into photons. A photon is defined by mathematical
physicists as a plane particle. (SIDE1) In other words, a

photon is all surface with no volume. When a tridimensional
space is subdivided into its elemental photons, all of its
volume is reduced to an infinite surface. At this point, the
space is wholly transformed from three dimensions to four. (*2)
The empty space of the universe is chock full of nothing
but photons. Therefore, empty space is absolutely pure,
hypersolid, Grade A, Government Inspected hyperspace.
Fourdimensional structures manifest merely two dimensions
in trispace (*3); all surfaces are the twodimensional
projections into material form of fourdimensional empty space.
All surfaces are planes. All planes are pure energy. All energy
is carried by photons. Photons are the agents of all
transformation and transmutation. Therefore, all activity,
chemistry, electricity, and change occurs on interfacing
surfaces; this is why chemical reactions are accelerated by fine
division. The geometry of energy is the mathematics of alchemy.
When Einstein proved that time stops at light speed, the
corollary that light speed is equivalent to infinite velocity
also proves that light speed brings everything in the universe
into immediate contact at the same time. Since the electro
magnetic field has light speed, every part of it is everywhere
at once. In other words, all space everywhere satisfies the
definition of a hyperspacial hologram and everything in the
universe is in intimate contact with everything else through
cosmic wormholes. Since the atom is a part of the universal
hologram, every atom must contain all the information of the
entire universe. No wonder there is no end to subatomic
particles.
Correlative with progressive subdivision, the velocities,
frequencies, and energy levels of parts and particles increase
inversely as an exponential function of size. When subdivision
of a tridimensional material body reaches finality by total
conversion of volume into plane, material is entirely
transformed into pure radiant photonic energy defined by the
velocity of light. (*4) In other words, hyperspace is nothing
but pure, kinetic energy. The higher dimensions of hyperspace
are the very dimensions of energy already measured, plotted, and
equated by physicists and engineers since Newton wrote his
PRINCIPIA.
The same equations that accelerate velocity as an inverse
exponential function of size also prove that size is diminished
as an exponential inverse function of velocity. In other words,
size is reduced by accelerated velocity. As a result, a star
decreases in size inversely with increase in mass until it
disappears into atomic dimensions upon collapse into the
hyperlight zone of a Black Hole. Conversely, a photon grows to
infinite size as it decelerates from light speed. (*5)
Einstein used the equations of the Fitzgerald Contraction
to prove that extension is lost on the axis of travel as a
function of accelerated velocity until a structure is squeezed
into a plane at light speed; plane photons is the result of that
Fitzgerald Contraction. (SIDE1) From our perspective, Lorentz
Transformations occur instantaneously above light speed;
immediately over the time barrier at the light limit, the plane
contracts into a line and the line collapses into a superdense
point. The lines are probably manifest as String Theory and the
points are particles composing the strings.
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SIDE1
The rear end of a racing car crosses the
finish line after the front end. From the
velocity of the car and the temporal interval
between the front and rear ends, the length of
the car can be calculated; only professional
mathematicians would conceive of such a
complicated way to measure the overall length.
The front end of a bullet enters a target
ahead of the back end. From the velocity of
the bullet and the temporal interval between
the front and rear ends, the length of the
bullet can be calculated. The bullet, however,
travels much faster than a car, and a bullet
is also much smaller. It is considerably more
difficult, therefore, to measure the temporal
interval with any significant precision; for
all practical purposes, the rear end of a
bullet reaches the target in the same instant
as the front end. When dealing with a particle
as small as a photon travelling at light
speed, it is physically impossible to detect
any temporal difference between its bow and
stern. Therefore, for all mathematical
purposes, both leading and trailing surfaces
of the photon pass the measuring point in the
same instant. Mathematically, it is possible
for two separated surfaces to occupy the same
point in space at the same instant of time
only at infinite velocity; as a consequence,
light speed is mathematically equivalent to
infinite velocity. Since four dimensions of
space are required for two volumes to occupy
the same location at the same instant, it
follows that acceleration to light speed
expands the spacial extension of a structure
from three dimensions to four. Conversely,
(*3) it is possible for the trailing end of a
particle travelling at a finite velocity to
pass the measuring point in the same instant
as the leading end only if there is no
distance between the two ends. A perfect plane
is the only mathematical structure without
any distance between its front and its rear.
Since a plane has no extension in the third
dimension, it is mathematically possible to
lay an indefinite number of planes in the same
plane. And that is why planes answer the
definition of hyperspace. Furthermore, the
elimination of capacity makes it impossible
for a plane to carry any mass, and that is why
photons are massless, plane particles. No mass
or extension is lost by acceleration; the
Fitzgerald Contraction is merely a
mathematical illusion produced by the limits
of precision. So now you know what the
mysterious Fitzgerald Contraction is all
about. A child can understand it easily, but
professional mathematicians can confuse the
obvious beyond the comprehension of a
Philadelphia lawyer.

*1 The mutually repelling feature of small bodies produces the
illusion perceived as the mysterious "Fifth Force". This
illusion is produced when the proper velocity of particles/
bodies exceeds the orbital velocity defined by their positions
in their field. Collisions among congregated bodies in orbit
exchange velocity to produce a gradual separation.

*2 Whereas the electrically inert, gravitically active chunk
defines the quintessential third dimension, the electromagnetic
but massless photon defines the exact plane of the fourth dimension.
During its growth, the gravitic field of a star is
supervened by its electromagnetic field. When a star collapses
into a Black Hole, all its manifest gravitic features condense
into the electromagnetic force. A star that collapses into a
Black Hole assumes atomic dimensions; the cosmic Black Hole is
nothing but a glorified atom. Thus, the third dimension spans
the space between quadimensional Black Holes defined by the atom
and the quadimensional Black Holes of stars.

*3 The same mathematics that prove a photon at light speed to
be a plane is extrapolated to prove that a particle's trailing
end gets ahead of its leading end when exceeding lightspeed, to
produce reversal of extension on the axis of travel and reversal
of time. In other words, hyperlight speed transforms a structure
into its negative. As a practical consequence, orbitting bodies
are experimentally proven to precess in time as Einstein
calculated correctly.
The negative of solid material is mathematically emptier
than the perfect vacuum, and that is why a hyperspacial
structure can contain an indefinite number of trispacial
stuctures in the same space at the same time.
All fields have hyperlight centres, which is why all
fields suck. All fields are glorified Bournelli Force.
Field repulsion is defined wherever the velocity separating
particles is less than light speed, but greater than zero. Thus,
we find that mutual repulsion is reduced in both directions from
a velocity differential of half light speed; the next chapter
explains why mutual repulsion is defined by the square root of
twice light speed, empirically. As a consequence, we find that
all celestial bodies within the same scale of size repel each
other more than they attract each other, and that is why all the
planets maintain the largest possible average distance from each
other, instead of gravitating into a clump. Velikovsky got
pilloried for pointing out the mutual interplanetary repulsion
that no astrophysicist could see. What greater punishment would
have befallen Velikovsky if he managed to explain the phenomenon
correctly?

*4 A star cannot be tridimensional because it is a mass of
free radicals, atomic particles, and blazing photons. A star is
actually space in the process of condensing into hyperspace.
Most astrophysicists will allow that a Black Hole is space
concentrated into hyperspace by gravity. A Black Hole is
calculated to be a gravitic centre of such intense concentration
that anything falling into it exceeds the speed of light; even
light cannot escape from the interior of a Black Hole.
Now, if you take this information to an atomic physicist, you
will be told that particles radiate intensely as they are
accelerated to the speed of light. Specialists never compare notes
under penalty of losing their membership cards, but as a lay
person, there is nothing to stop you from putting the empirical
fact of the atomic physicist to the calculated fact of the astro
physicist to deduce that everything falling into a Black Hole must
radiate with the intensity of a quasar before disappearing into
the gravitic maelstrom. In other words, it is physically impossible
for Black Holes to be black; they must be the most brilliant
centres in the known universe. And that is what a star is; a star
is the brilliant photosphere surrounding a nascent Black Hole.

*5 In a universe undergoing exponential aceleration, every
observer experiences himself to be the One Still Point while
everything accelerates away at a rate that increases with
distance. Since wave strustures accelerate as a condition of
their physical existence, the Big Bang is an unnecessary
postulate.
Since mass is a function of velocity, mass must increase as
a function of distance. Infinite mass is found in atomic nuclei
where velocities exceed light speed. In fact, all mass is
defined by nuclear particles.
Since velocity also accelerates to light speed at the event
horizon, it follows that the event horizon must also be defined
by infinite mass; astrophyicists are busy seeking a lot of
missing mass and can't see it for looking. Since gravitation is
a product of mass, it is necessary that the cosmos gravitate
with accelerating velocity to the event horizon  which is
what the Big Bang is all about. The point is that the self
evident can be confused beyond all comprehension, with a little
mathematics, if you don't know what the equations mean.
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I I
I Easy things are seldom done I
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I that impossible things I
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A SIMPLE demonstration will prove that all empty space is a
hyperspacial hologram. Fix your camera on a tripod and take a
picture through the aperture set at f/16. Then, take another
picture after you open the aperture to f/2. You can see that
both pictures are practically identical, except for depth of
sharply focussed field.
The aperture opened to f/2 passes a beam of light sixty
four times greater in area than the aperture closed to f/16.
This means that each beam of light, no matter how constricted,
contains the same information as every other beam and all beams
put together. The only change that aperture makes is the
resolution of fine detail. Furthermore, no matter where you set
the camera, your pictures reveal essentially the same
information; the only difference that perspective makes is the
relative sizes and positions of the image details. If your lens
could accept rays from all directions, you would see that every
location in space contains all the same information as every
other location; the differences produced by different locations
are merely a matter of spacial sequence, aspects, and relative
size. A space that contains all its information in all of its
parts answers the mathematical definition of a hologram. You can
see for yourself that we live in a cosmic hyperspacial hologram.

The hypothesis of the universal hologram is shaking
scientific thought to its foundations at this time, but the
proof has been selfevident to everyone since the effect of the
pinhole camera was noticed. How 'bout that, Sir Isaac? William
Blake understood the universal hologram when he saw the universe
in a grain of sand; art is truth apprehended directly with no
need for logic  so is insanity.
Everyone has seen holograms in charm bracelets, on credit
cards, in science fairs, and on the cover of NATIONAL GEOGRAPHIC.
A hologram can be understood as a moire pattern made with light
waves. The EDMUND people at EDMUND SCIENTIFIC PRODUCTS
International Operations Department
8780 Edscorp Building
Barrington, New Jersey
08007 U.S.A.
will sell you a kit of moire patterns to study. Moire patterns
serve as moving pictures to illustrate this book.
The hologram was inconceivable outside of a small cabal of
theoretical physicists who plotted the mathematics since the
beginning of this century, and a hologram couldn't be produced
until the laser was invented to provide the necessary coherent
waves. Without any parade of mathematics, I discovered the
hologram while soaking in my tub, with my big toe protruding
above the surface of the steamy water. I dare say many other
soakers must have made the same discovery since bathing became
intentional. (*1)
Ordinary light can be represented by splashing water in a
bathtub until the surface is covered with random waves. In
contrast, a slow drip from the faucet into a tub full of still
water covers the surface with a regular, parallel wave pattern,
illustrating the coherent light waves in a laser beam. Now, if
you set a firm object in the tub so that it breaks the surface
of the water, the regular waves will reflect from the surface of
the object, and the reflected waves intersect the regular waves
at an angle determined by the angle of reflection. Soon the
entire surface of the water is covered with a pattern of regular
waves perfusing with reflected waves. The remarkable feature of
this pattern is that the angles of intersection are about the
same over the entire surface; remember Euclid's theorem that a
straight line intersects all parallel lines at the same angle.
In other words, every part of the surface of the water contains
the same information; you have created a hologram in your
bathtub. If it were possible to reverse the flow of the
reflected waves, they would return to their points of reflection
to reconstruct the cross section of the object.
The coherent light of a laser beam functions as a moire
screen. Waves reflected from an object function as a second
moire screen to generate an interference pattern, like you can
see in your tub demonstration. A sheet of microfinegrain
photographic film placed in the laser light will record a moire
pattern of swirls and whorls; no camera or lens is needed. The
extremely fine lines defining wave interference function as a
diffraction grating and a diffraction grating functions as a
lens. When another laser beam is shone through the film, the
rays are bent to meet at focal points corresponding to resolved
points on the surface of the photographed object so that
projection reconstructs the form of the original solid object as
a ghostly image in space viewable from all sides. A real ghost
is a natural hologram.
Any movement while a hologram is being exposed will blur
one wave into another to register nothing but an even light fog.
Therefore, holograms are photographed on heavy stone tables
firmly set on bedrock  after consulting timetables for nearby
railways and jetliner takeoffs, and the children are asleep.
Furthermore, the photographic film must be at least as fine
grained as the moire pattern in the laser light if the image is
to be resolved. Film speed varies directly with graininess, so
holographic microfilm is the slowest emulsion since Daguerre
clamped his portrait sitters in a vise. The growing interest in
holography is likely to stimulate Great Yellow Father to improve
the speed of finegrain film, while inventors will figure out
ways to simulate holography by more practical techniques for
making television images intheround; the solution to cheap
holograms seems to be in computer graphics.
Holograms confound common sense because few people have
ever seen diffraction gratings, and fewer have any idea how they
function as lenses. Light bends around the edge of material
particles, like you can see waves bend around your own big toe
sticking through the water surface in your tub. Waves are bent by
the edges of material structures because every body produces
photonic turbulence around its surface, and turbulence retards the
smooth transmission of wave energy. The more edges a ray of light
brushes, the more it is bent. The amount of bending a diffraction
grating imposes on a transmitted beam is determined by the
closeness of lines in the area. (SIDE1) In other words, the
refractive index of a diffraction grating is a function of the
concentration of the lines; the refractive index approaches
infinity as the lines crowd together; the material becomes
opaque when the lines touch each other to become a continuous
area. A continuously accelerated density of lines across the
diameter of a diffraction grating can bend all rays to the same
focal point, like a parabolic glass lens or a Fresnel lens. A
holograph of a lens functions as a lens. Since it is easier to
print a diffraction grating onto an optical flat than to grind
and polish delicate glass, Japanese are trying to solve the
problems of diffusion and opacity in order to manufacture camera
lenses as compact, light, and inexpensive as filters.
The swirls and whorls of lines you see on a hologram mean
that the lightbending power varies over its surface. A hologram
is a complex lens with many focal points. A hologram can also be
conceived as an array of innumerable lenses of different focal
lengths, each focal point corresponding to a point resolved on
the original object. Therefore, a hologram projects a
tridimensional image instead of the plane image defined by an
ordinary lens with a single focal length.
The concept of photographic negative is imprinted in the

mind so that people continue to perceive the hologram as a
negative image even though there is no image on the film. As a
consequence, watching a hologram being cut into several pieces
with each piece containing the entire image is utterly baffling,
demonstrating as it does that Aristotle's Three Laws of Logic
are not absolutely true, but merely expresses the way the mind
defines its perceptions. This modern miracle of loaves and
fishes is also selfevidently simple when you think about what
you actually see instead of see what you think you see.
A hologram is not a pictorial image, but an array of lenses
that projects the same image from any light. You can see how a
hologram works by looking through a window sectored into many
small panes. The view through each pane is the same, except for
parallax displacement, and the view is complete no matter how
small the pane. Likewise, you will find the same view through
each lens in an array. A hologram is composed of millions of
lenslike panes, mixed as thoroughly as gas molecules in the
atmosphere. Since every part of a hologram has an equal sampling
of replicated lenses, it is obvious that each part must project
the same picture in its entirety. As a hologram is reduced in
size, however, the number of lenses it contains is reduced, and
the holograph becomes fuzzy when there are insufficient lenses
to resolve each point in the image, uniquely. (*2)
The universal hologram is composed of points in a volume
rather than lines on a film plane. Every particle in the cosmos
functions as a point in a voluminous diffraction grating, bending
light as Einstein calculated the curve of waves around the Sun.
The bending produced by the Sun is noticeable only to
astrophysicists looking for the phenomenon; the bending of light
by atomic particles is immeasurably minute, but there are an
infinite number of particles in the cosmos, and compounding
their refraction over a few million light years adds up to the
curve of space around the fourth dimension. Einstein's
mysterious curve of space, you see, can be understood as an
effect produced by the diffraction of light as it flows through
the cosmos.
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SIDE1
The refraction of transmitted light by a
hologram is produced by wave interference that
amplifies phases off the projection axis so
that the beam of light appears to turn to one
side without any actual bending of the rays.
You can see this effect in the way moire
patterns are turned from the direction of
their elementary waves. The trouble with using
a diffraction grating as a lens is that it
really diffracts light to produce the illusion
of bending; diffraction also produces the
colour fringing that blurs all holograms not
viewed by laser light.
Another way of understanding how a
diffraction grating can function as a lens is
illustrated by the pinhole camera. Light
passing through a pinhole forms an image.
Light passing through many pinholes form many
overlapping images. The images of random
pinholes fuse into a blurry patch of light. If
the pinholes are spaced at regular intervals
according to wavelength, however, the images
will fuse into register to form a brighter and
sharper image. A hologram can be considered as
an array of pinholes separated at wave length
intervals.

*1 Itshak Bentov, author of Stalking_The_Wild_Pendulum and
A_Co(s)mic_Book, discovered the principle of the hologram in a
similar observation. If Diogenes had any water in his tub, he may
have been the first Western philosopher to discover the
structure of the universe.

*2 A hologram is to a picture what a shape program is to a bit
mapped picture in computer graphics. A hologram is the digital
code turning ANY light into pictures like a Compact Disc turns ANY
electrical current into music.
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I I
I Optics is Relativity in working clothes. I
I____________________________________________I
WHERE a current of water meets an opposing current, a bar
or tidal rip is raised. The water in a opposed wave cycles, but
the opposed wave does not travel; it remains raised in one spot
as a standingwave.

A cup of coffee on board a motor vessel or railway car
manifests a pattern of concentric, annular standingwaves on its
surface. These rings are raised by vibrations radiating from the
walls of the cup to the centre, whence they continue until
they strike the opposite wall and are reflected to repeat the
cycle. The wavelengths which meet each other in exact phase
congruence generate the standingwave pattern; the other
vibrations do not interfere with each other. In other words, the
standingwaves are a wave/phase interference pattern similar to
a moire pattern. The molecules in the central standingwave
swirl in a vortex. The standingwaves you see in your cup is, in
fact, a model of the Solar System and atomic structure.
Wave velocity is a function of the average particle
velocity in the medium. Like cars speeding in traffic, particles
driven faster than the average soon pile up a resisting bow wave
that forces them to turn. When particles are driven to twice the
average velocity, they are forced to turn around a complete
circle, effectively stopping most of their net travel and
raising a wave that travels at the average particle velocity in
the medium. Particles driven faster than twice the average
velocity in the medium are forced to turn around a second plane,
to generate a secondary wave flowing at rightangles to the
primary. The wave pattern you see on the surface of open water
reveals these orthogonal dynamics. Particles driven over four
times the average in the medium are forced to turn around a
third plane at rightangles to the other two, to produce a fluid
vortex. (*1) A conical standingwave is the negative of a vortex.
The plane of particle cycling is at rightangles to the
surface wave flow; frequency is wave velocity cycling at right
angles to wave flow. Since cycling is produced by exceeding the
speed limit, it follows that frequency represents particle
velocity above wave velocity. Since momentum increases by the
square of velocity, it follows that wave energy must increase by
the square of wave frequency. Therefore, when photon velocity
reaches lightspeed, the electromagnetic wave satisfies the
equation, e=mc^2. And where a radiant wave meets another radiant
wave in precise phase opposition, the photonic fluid must
collapse into a vortex because their photons exceed four
times average medium velocity in each wave relative to the other
to generate the matterwave frequencies calculated by de
Broglie. Furthermore, the logical definition of a wave cycle
makes a partial cycle impossible; therefore all radiant energy
must exist in quantum units defined by frequency. Anyone could
have deduced the Quantum Theory from observation of watery waves
without waiting for Planck to analyze the Ultraviolet Catastrophe
and for Einstein to confuse the Theory of Relativity.
If you have followed the line of reason through the
previous paragraph, you must realize that material particles are
created where the photonic field constituting empty space
collapses into atomic vorteces. Fluid vorteces, therefore, must
manifest the physical properties of material. It is the density
gradient of the photonic vortex surrounding material particles
that bends light rays. If you inspect a vortex in your bath tub,
you will see for yourself that it refracts the light it
transmits to cast both a bright spot and a shadow on the bottom
of the tub. A whorl comprising a hologram is a standingwave
vortex, and you can see for yourself that it also bends light to
produce bright spots and shadows. A vortex manifests the
inertia of its spin, and inertia is the definitive physical
property of a material particle. Mass is nothing but a
measurement of gyroscopic inertia. Physics students can prove in
ten minutes that vortex equations are equivalent to field and
matter equations. (*2)
Since a hologram is defined by vorteces and since particles
are vorteces, the universal hologram is a cosmic compound vortex
that defines itself by the very waves it transmits. As particles
bend light to focal points, and radiant energy condenses into
particles at focal points, all the particles in the universal
hologram literally procreate all the particles in the universal
hologram. Continuous movements throughout the universe produce
continuously changing focal points so that all material particles
move continuously as they grow and decompose back to radiant
energy in the eternal cycle of YIN and YANG.
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*1 The paradox of the vortex is that its acceleration
results in a collapse of volume to produce increasing density
while pressure falls; as a consequence, the surrounding medium
is sucked into the vortex. In common experience, natural fluid
vorteces are ephemeral because velocities exceeding four times
the medium average are soon absorbed by the fluid field to
raise the average energy of the medium.

*2 Newton noticed the congruence between the equations for
fields and vorteces, but he decided to omit the proof from his
Theory of Gravitation, and postulated a hypothetical attractive
force, instead, even though he admitted that it is physically
impossible to substantiate an attractive force through empty
space. (I credit Mr. Whamond for this historical information.)
Einstein rediscovered the identity of field with mass in the
calculation of his General Theory of Relativity, and de Broglie
rediscovered the same equivalence twenty years later. It just
goes to show that the foundations of modern physics could have
been laid by anyone knowing the most elementary equations taught
in high school without an incomprehensible parade of mathematics
backed by national treasuries.
30
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I I
I The original concept of "universe" I
I has the same meaning I
I as the original concept of hologram; I
I to wit, "all in one, I
I which is the original concept I
I of the God That Is All That Is. I
I________________________________________I
SCIENTIFIC research is a multibillion dollar industry.
Scientists protest that fundamental research depends on
megabucks. It is understandable why the scientific profession,
like the artistic, medical, and teaching professions, believes
that money produces quality. Historical facts, however,
contradict the professional sales pitch; the quality of pure
science correlates inversely with cash flow. All the seminal
discoveries of science were made with apparatus put together for
less than $100. Using a teaspoon of sugar, a sheet of tissue
paper, a pinhole camera, and a basin of water, you have just
discovered the answers to the greatest problems of pure
mathematics, physics, and philosophy that defy all the genius in
megadollar laboratories. And it didn't take a day of higher
education, either, did it?
END OF FIRST CHAPTER
EMail Fredric L. Rice / The Skeptic Tank
