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We
noted that the xenosubstance (XS) in
its natural state of existence resides
at the xenobase (XB) state.
Hence the true primeval admixture of
Nature is made of XB and
vacuum (V). Since obviously
XB and vacuum can coexist side
by side, it is clear that if we want to
advance further with our theory, we
need to discover the primary force in
Nature capable of disturbing this
primeval equilibrium. We need this
disturbance of the primeval equilibrium
to take place because we recognize that
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In
Nature, evolution can occur only when
stability is being disturbed.
We call this important
recognition
The Fourth Fundamental
Principle of Nature.
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Finding Nature's primeval motor of
evolution is paramount for the
advancement of TRUTON and this
undoubtedly must be our first and
foremost task. Since we are at the
bottom-level of organization of Nature,
we have nowhere to look but at the
primary admixture of the PINs (primary
ingredients of Nature --xenobase and
vacuum).
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When
we introduced the
primary ingredients of Nature --the
PINs,
we envisioned two (2) representations for
it, vested in Figs.
1A
and 1B,
respectively. We noted that we could not have
two (2) distinct representations at the
bottom-line representation of Nature as that
would create an inadmissible foundational
structure doomed to collapse everything that is
to be build on.
The
Fourth Fundamental Principle of Nature just
enunciated above would tell us that we need to
consider a primeval motion in the two
representations, i.e., to switch from the
static mode to the dynamic mode. The simplest
motion that we can have is a linear, translatory
motion and thus, that type of motion is going to
constitute our primeval inertial motion.
Once
we perform the switch from the static to the
dynamic mode, via the given primeval inertial
motion, we with ease can recognize that for the
start-up of TRUTON, we need to select the
representation vested in Fig. 1A
representing moving XB blocks in the
vacuum space.
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FIG.
1A
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Thus,
moving/gliding XB-blocks in the
(limitless) vacuum-space is the
primeval start-up picture for TRUTON.
From here arguably we need to build the
entire theory of Nature.
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The
origin of this start-up motion for
our primeval start-up picture, for
now, is to be considered as a given,
to be revealed in the next page as
part of the ultimate grand cycle of
Nature.
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During
the random gliding motions of various
XB-blocks in the vacuum space (that is
the absolute bottom-line space of Nature and
having no boundaries), some will collide into
each other. Those random collisions clearly will
disturb the "tranquility" of the dynamics
of the gliding XB-blocks and that, in
turn, by The Fourth Fundamental Principle
of Nature, will trigger evolution --the track
that we need to follow.
In
our case, those collisions must set somehow the
stage for the primary step of evolution in
Nature --that would lead us at the formation of
a new state of existence for xenosubstance, the
xenofluid
(XF) state,
and eventually at the creation of new
qualitative objects from where our Universe
(U)
and other universes would be
born.
Let
us then begin and examine in some detail some of
the primeval collisions.
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1. The 2-way linear XB-block
collisions:
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XB1
and XB2 upon
collision
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Let
XB1 and
XB2 be two (2)
XB-blocks moving/gliding in a
collision course in the vacuum
space. How the force of collision
will be distributed as the
vacuum-space opposes no resistance
to their gliding and the XB-state
opposes no resistance to
compression? How this collision will
be absorbed?
Well,
let v1 and v2
be the linear gliding speeds of
XB1 and
XB2, respectively.
Upon collision of
XB1 with
XB2 (figure
above), the surfaces of contact will
instantly transform into XF-surfaces
and, at their rims, vacuum surface
singularities will be formed that
will act as sealants --i.e., (with
our terminology introduced) as
xenosealants. Between the surfaces
of contact, depending on the shape
and the convexity of the original
XB-blocks, some environmental
vacuum will be entrapped between
them creating vacuum "holes" of the
newly composed object
XB12. Its contact
XF-surfaces, by the renormalization
property of XF, will go back to the
original state --the XB-sate. Also
we note that if
v1=v2, then
the newly created formation
XB12 will become
stationary. On the other hand, if
v1 and v2 are
not equal, say
v1>v2 ,
then XB12 will
glide with the speed v12
= v1-v2
in the direction of
XB1.
In
addition, as a result of this
collision, the formation
XB12 will acquire
--in general-- a spin that
can be sustained indefinitely. This
is because the required inward
centripetal force (FCP
) is obtained from the
constraint force of the XB-mass that
is a non-stretchable mass. The
outward inertial centrifugal
tendency (CFT) having the
tendency to stretch the XB-mass will
create therefore a tensioned
XB
(tXB)
that decreases linearly from the
axis of spin as it varies as 1/r
with r>0 being the
distance from the axis of spin.
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The
required centripetal force
(FCP )
needed to maintain
the
circular
motion is, in this
illustration, provided by the
resistivity of the string to
sustain the outward
centrifugal tendency (CFT) of
inertia.
In
our case, the required
centripetal force
(FCP )
for each point of the
spinning XB-mass is provided
by the resistivity of XB
towards further decompression.
In this regard, XB-mass
"behave" as an absolute rigid
body. At its breakable point,
XB-mass will disintegrate.
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We
call the newly created formation a
xenobase-comb (XBc) which is
characterized by these
properties:
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- it
is a spinning object;
- its
interior is made of a tensioned
xenobase (tXB), whose tension
a)
increases with the speed of the
spin, and
b)
it is not uniformly distributed, but
the tension is structured to
decrease proportionally to the
distance from the axis of spin;
and
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- it
contains vacuum "holes" and vacuum
singularities in it.
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REMARK
1: A xenobase-comb can be visualized as
a Swiss-cheese domain as illustrated in
the figure below
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An
illustration of a
xenobase-comb.
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Xenobase-combs
are therefore formations that
are of the type represented in
our primeval Fig.
1B
being derived from the
primeval Fig.
1A.
Because of this recognition,
it follows that the
starting
primeval picture of
TRUTON
could be represented by either
pictures, Fig. 1A
or Fig. 1B.
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REMARK 2: Xenobase-combs (XBc) are spinning
objects whose spins cannot exceed a certain
maximum speed called the critical spin.
This is because xenobase can sustain a maximum
finite
tension
beyond which xenobase would desintegrate.
2.
Multiple simultaneous xenobase-comb collisions:
From
the vast arrays of multiple xenobase-comb
collissions that could be visualized, we can
imagine for sure this rare, but plausible,
occurrence: a XB0
xenobase-comb gliding in the vacuum space
being hit simultaneously, from different
directions, by a number of moving XB
xenobase-combs, say XB1 ,
XB2 , ...
XBK. As a result of those
simultaneous collisions this picture begins to
emerge:
- XB0
-mass will be compressed by
the simultaneously hits transforming
that mass into a xenofluid
mass, XF0
-mass;
- the
vacuum holes of the XB0
xenobase-comb will be squished
transforming them into vacuum
singularities or vacuum filled
objects that are indeed the primary
particle of Nature called
xenotrons (to be studied
later);
- At
the places of contact between the
XF0-mass and the
colliding XB xenobase-combs,
XB1 ,
XB2 , ...
XBK , vacuum
surface, line, or point
singularities will be formed
"gluing" them together to the
XF0-mass. (All
those parts XB1 ,
XB2 , ...
XBK are called
xenopetals and the central
part XF0 is called
centroverse.)
REMARK:
The xenosealans that are
being formed, by being
vacuum-singularities,
aside from sealing the
hitting blocks together
will have another
remarkable propriety
--that of being
bridges of
communication
between those blocks and
the XF0
-mass. This is
because of the
shear-free
property of
vacuum
that allows anything to
pass from one block to
another through the
xenoseal without
opposing any resistance.
Those bridges of
communication that
xenosealns are providing
are called
xenobridges.
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- Pockets
of vacuum, derived from the
environmental vacuum-space could be
formed between various parts of
XF0 with
XB1 ,
XB2 , ...
XBK.
- The
newly created formation
XF0-K , called
xenoverse, will acquire a
spin as a result of the uneven
simultaneous impacts of the
XB1 ...
XBK blocks.
Recap:
A xenoverse is
composed of a central
part called
centroverse and
of xenopetals
attached to it.
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With this general picture being created, let us
now take a closer look at the central component
XF0 of the spinning formation
XF0-K --the centroverse.
The
compressional body force generated by those
multiple simultaneous collisions that generated
the xenofluid mass for the centroverse
(XF0) will ceased to exist
after the collision. Thus, we want now to
examine what is going to happen after the
collision, both with the spin and with the
xenofluid mass just created.
Once
the spin was created, an inertial centrifugal
tendency (CFT) was born. If that inertial
outward tendency encounter no opposition, then
no spin is able to be sustained. To have a spin
that can be sustained, we need to have an inward
centripetal force (FCP )
capable of opposing, and thus balancing, the
outward inertial centrifugal tendency (CFT).
In
our case, the outward inertial CFT will act
simultaneously on each point of the centroverse.
The "power" of this tendency varies also as
1/r with r>0 being the distance
from the Axis Of Spin (AOS).
The
xenofluid surface of the centroverse
(XF0), 
,
as with the rest of its xenofluid mass, will
expand --by the influence of CFT and by the
renormalization property of xenofluid (the
DownState
Law).
This expansion of the centroverse
(XF0) will stop once the
surface
has transformed from a xenofluid state into a
xenobase state. The xenofluid of the centroverse
mass can no longer expand as it is being
contained and constrained by its non-stretchable
xenobase surface .
This xenobase surface just formed guarantee both
the existence of the spin and the existence of
the xenofluid in the centroverse.
The
xenofluid of the centroverse is subjected to a
number of simultaneous tendencies, as
follows:
First,
we have the outward inertial centrifugal
tendency (CFT) generated by the spin. The
"power" of this outward inertial tendency
varies as 1/r, with r>0
being the distance from AOS. The "power"
of this outward inertial tendency varies also
with the speed of the spin: the greater the
speed of the spin, the more powerful the
tendency is going to be. As a result of this
"pushing-out" tendency, each concentric
surface of the xenofluid of the
centroverse will have the tendency to move
outwards from the axis of spin (AOS). This
outwards tendency may generate a xenobase
zone around AOS if the speed of the Spin is
big enough to overpower xenofluid's
resistivity towards further compression.
After this xenobase zone (which may or may
not exist), called the centerbase
zone, we will have a mass of xenofluid
whose density will increase gradually towards
its surface being maximum just below
.
The radius of the centerbase zone is called
centerbase distance.
Thus,
to recapitulate, within the radius of the
centerbase, the mass of a centroverse is
xenobase. After the centerbase zone, the mass
of a centroverse is made of xenofluid where
an exact balance will exist between the two
simultaneous tendencies at work --one
dictated by CFT, the other by DSL
(DownState
Law).
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REMARKS:
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1.
Because of the exact balance
created between the tendencies
of CFT and DSL, any moving
object immersed in the
xenofluid of a centroverse
will oppose no resistance in
its motion from its
environmental xenofluid
(eXF).
 But
this is Newton's postulated
Law of Inertia
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2. An object as it moves in
the xenofluid of centroverse
would leave behind a trace in
a form of a tube whose surface
 would
be stretched (figure below).
That stretch, and thus that
thinning of the density of
,
will be recompensated, in
general, by the incoming XF
-flow having the tendency
in filling up the vacuum
"hole" created. However, if
the speed of the advancement
of the object in the
XF-medium is big enough
and exceeds the speed of the
renormalization process, the
surface will
be stretched so much that it
will reach the XB-state, a
state where decompression is
no longer possible. We call
critical speed  ,
the speed that has exceeded
the speed of the
renormalization process. At
that point, when the moving
object reaches that critical
speed, it will hit an
impenetrable "wall" --the
impenetrable xenobase (XB)
bottom of the xenofluid. The
object upon impact will
disintegrate transforming
itself into a burst of
energy.
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An
object reaching its
maximum critical
speed
before
disintegrating into a
burst of energy by
hitting the xenobase
"wall". The energy is
released in the form
of electromagnetic
radiation (light)
that is propagating
perpendicular (red
arrows) to the
object's direction of
motion.
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So,
we have proved from this
Remark
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The
Fundamental Theorem of
Rapidness of
Movement
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In
Nature no object can
increase its speed
indefinitely in a xenofluid
environment as there is a
maximum critical speed
beyond which all objects
will disintegrate.
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So the rare, but plausible, situation of
multiple simultaneous collisions that we have
considered to exist will generate --as we have
seen-- a new qualitatively composite object,
called xenoverse whose properties of
characterization are as follows:
- are
spinning objects;
- are
made of a xenobase core followed by
xenofluid whose density reflects the
exact balance between the
centrifugal tendency and
renormalization tendency of the
xenofluid;
- contain
vacuum (point-, line-, surface-,
singularities) and vacuum "holes"
that will lead to the creation of
primeval fundamental particles of
Nature out of which everything is
going to be built up.
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We
can encapsulate and formalize the results
obtained in here with
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The
1st Fundamental Theorem of
Creation:
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Out
of primeval ingredients of Nature,
xenobase and vacuum, spinning
primeval formations --xenobase-combs
and xenoverses-- can be formed that
can combine (and recombine) in large
formations.
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Is
this the complete picture of the centroverse?
Well, not really because we have not looked at
the vacuum "holes" and vacuum singularities and
how they are being affected by the tendencies
and forces associated with the Spin --the
subject of our next section.
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