The
possibility of one dimension would logically be the next
manifestation. A line may exist in one dimension. For that to
happen, another segment of time would be required. The smallest
unit of distance is believed to be Plank’s length (10⁻³³
centimeters),
and the shortest unit of duration has been suggested to be
Plank’s time (about 10⁻⁴³
seconds),
approximately the time it takes for light to travel a Plank
length. These minimum measurements, however, are assumed to be
the shortest duration and length at the time of Big Bang which
is often referred to as time zero. For the purpose of this
writing the minimum measurements before Big Bang would be
meaningless since there is nothing to which they may be
compared, and time zero would be at the moment of the
manifestation of the primal point, not Big Bang. The minimum
length and minimum time duration will be designated Mlength and
Mtime, respectively.
We may
consider each Mtime to be like an individual picture frame, or
cell, in a movie. Each time cell is static. Changes occur with
the revelation of a new “now” time cell. The time cell following
the point manifestation cell would have provided the opportunity
for the point to be stretched to an Mlength line. The “stretch”
would occur between time cells. It would be more like a jump
from one time cell to the next. This tiny line would not be an
infinite series of points but a stretched point entirely
composed of POEM. Now we have a direction for time and a
manifestation of the possibility of one dimension.
Figure A
displays a succession of time cells. The primal point is at
Mtime 1 and the primal line is at Mtime 2. A third time cell,
Mtime 3, provides the opportunity for the line to stretch
widthwise into a plane, and Mtime 4 allows the plane to be
stretched into a cube. In just four Mtime duration time cells,
spacetime could have been created, existing as a cube with each
edge measuring an Mlength—the primal spaceblock. That
dimension is tiny from our perspective but at the time of the
spaceblock’s creation it encompassed everything in spacetime.
The next time cell, Mtime 5, shows the primal spaceblock
stretched to double its volume. At Mtime 6, the stretched block
becomes two blocks, dividing as biological cells do.
Mtime 7 and
Mtime 8 show both spaceblocks dividing, and the process
continues, increasing the volume of space exponentially. Figure
A shows a graphic representation. The spaceblocks could bulge
and split, doubling the volume of space, but not necessarily
being geometrically cubic.
The
spaceblocks constitute the fabric of space. Each spaceblock is
composed of and is an expression of POE and, as such, is the
same block appearing in all manifested places at the same time.
\
Each spaceblock is both a part and the whole of POEM.
.
Mtime 1

__
Mtime 2

Mtime 3

Mtime 4

Mtime 5

Mtime 6

Mtime 7

Mtime 8 
Mtime 9

Mtime 10 
Mtime 11

Mtime 12 
Mtime 13

Mtime 14

Mtime 15

Mtime 16 
Figure A
The
exponential increase in POEM volume for the first twentytwo
time cells is shown in Graph A. Figure A is represented in Graph
A only to Mtime 16, the first sixteen time cells. The volume of
space doubles in each two time cells. The rapidity of the
increase in volume is demonstrated more dramatically in Graph B,
which depicts up to Mtime 62. It takes twice the time of Graph
A to even register a visible delineation on Graph B.
Graph A
Graph B
Graph C is
even more impressive. It displays the increase of space volume
after only one hundred time cells from the primal moment. At
Mtime 100, the volume increased 281 trillion times the volume
at Mtime 4, and that brings us only to 10^{41} seconds
of the first second since the primal moment.
Graph C
