This presentation examines the structural
foundation of the universe based on my
book, 'The Science of Consciousness.' we can
form a coherent picture when we consider
string theory, relativity as well as
quantum mechanics. I will model the
cosmos with a coin. string theory tells us
that particles are energy vibrations
occurring within folded-up, so-called
micro dimensions. These micro dimensions
are thought to take the form of a six
dimensional Calabi-Yau space as shown
here. Although in this image the
particles appear separate and isolated,
in reality they are interconnected and
can form entanglement. In quantum
mechanics entanglement occurs when two
particles evolve as one object, even
though they may be separated in space.
Taking an arbitrarily small sample of
the universe we find that micro
dimensions are surrounded by a negative
space, so-called macro dimensions. In
our example one side of the coin refers
to the micro dimensions and the other
side is space.
During entanglement the particle
vibration for polarities by changing the
ratio of these dimensions. Up spin
expands the macro dimensions, whereas the
micro dimensions contract.
Down-spin is the inverse transformation
shown here in the left. Entanglement is
often followed by interaction or decoherence, which makes changes permanent.
Overtime interaction causes space to
develop curvature by contracting in some
places and expanding somewhere else shown
here in the right. Within the center of
astronomical objects, such as planets and
stars pressure forms which channels space
outward toward the right, shown in the
black arrow.
Therefore, gravity is a bipolar force
caused by spatial curvature. The
principle of static time has been
proposed in the 1960s; it shows that
looking from the outside the cosmos
doesn't change, it is static. Differences
in energy states evolve locally via
entanglement. For example, when space
reduces to zero in some regions shown
on the left, it must expand to
infinity somewhere else, shown in the
right here.
Looking at the cosmos globally we find
that spatial differences form poles.
Regions with substantial pressure
collapse space into the two dimensions
of black holes, shown here on the top and
vacuum expands space into the fourth
dimension forming so-called white holes
shown here in the bottom. Horizontal
lines on the left indicate the micro
dimensional frequencies, which change in
a step-wise fashion between the poles.
Within constant curvature the
frequencies form a closed surface which
can stretch the boundary infinitely. In
contrast, entanglement shown on the right
increase the spatial curvature
differences and interaction forms a
minimal surface. These opposite forces
give rise to self-regulation, the
continuous fine-tuning of the physical
parameters of the universe. Our
experience is limited to space. The micro
dimensions, which orchestrate change are
hidden from our perception. Thus, cosmos
can be represented as a hat; the positive
curvature top indicates the black holes
and the white holes are the negative
curvature brim. You are here, indicated by
a star. This is where our
three-dimensional home galaxy is.
Since the back hole horizons are
two-dimensional, they can represent the
surface of a balloon, which is being
blown up by the white holes. Our
universe expands. White holes act like
dark energy, which pushes against the
periphery, creating the impression of
excess matter, called dark matter. The
black holes immense field strengths
slows expansion. The most detailed
study of the cosmos ever made, by Tulli
and his colleagues in 2014 has
spectacularly confirmed the above hypothesis.
Cosmic void push galaxies toward the
periphery. A star indicates our home Milky
Way galaxy within the Laniakea super
cluster, indicated in black lines.
Contracting space exerts a gravitational
pull on astronomical objects to form
flow lines and filaments, similar to
converging rivers and watershed. Landauer recognized the relationship
between energy and information in
computing. But his principle has been
extended into kinematics and other
fields.
Therefore information accumulated
regions must heat up and energy rich
areas must cool down.
Therefore black holes show high
temperature and pressure, shown here on
the left, whereas cosmic voids are the
coldest and emptiest regions of the cosmos,
shown here in blue on the right.
This hypercube represents the four
dimensions of the white holes.
So even Landauer's principle supports
the idea of the universe presented here.
Discover more details on this and
other subjects in my book: The science of
Consciousness. You can find your copy on
Amazon. There you have it: the immense
complexity of the universe in a penny. That's getting your money's
worth.
