
The Universe
Summary
If you go outside and look up
at the sky, you will see a universe that is infinitely
large and very cold. You will also see that the universe
has created a local Big Bang mass of which you
yourself are a part. Apparently there is nothing else
. But something is
missing
The universe cannot create
its dynamic mass from its volume alone. The universe
therefore has a property that has created the dynamic
mass that we have not been aware of until now.
It's not that we don't know anything about the unknown
dynamical mass, because it leaves an imprint in
universal space that forms the basis of a search model
that can be used to find a property in the universe that
can match the properties that it dynamic mass has.
There are many physical and mathematical parts that
have to fit together, so there are not many solutions to
choose from.
I have used the universe's 0 point
solution and judged it to be the best solution, but you
can try yourself to see if you can find another solution
to the unknown property of the universe.
The Evolution System
of the Universe: By observation, we
have established that the universe has developed
homogeneously and isotropically in all directions, this
also applies to the dynamic development. We can
therefore reasonably regard the Universe as a
selfdeveloping and selfadjusting system.
We need to find a
property in the universe from which the dynamic property
can be developed: I can state that
there is a connection between the volume of the universe
and the dynamic function for the following reasons.
Albert Einstein's formula E = m * c^{2} which describes the
relationship between the nuclear mass and its energy,
which is a two parameter system.
For a
dynamic function to work, the state must not be
stationary and the energy must not be consumable.
I have looked in the observational results of the
wellknown classical physicists and found that it is
only Brown's observation of the Brownian motions in
liquids which decrease with decreasing temperature.
Kelvin's observation that all particle activity stops at
273 degrees Celsius, which is also called the zero
point of the universe.
By system test analysis of
the atom and the chemical molecule structure; which
points to a dynamic version of the universe's zero point
system.
Zero
point of the universe In order for
the zero point of the universe to be used as the missing
parameter of the universe, it must have the following
properties; There must be a movable link above the zero
point such that the total energy in the Universe is
neutral. We therefore get a zeropoint function that
looks like this:
..................................................
I have therefore looked a lot at the zero point
of the universe, to which all processes refer. There are
no problems with the various links which are directed
towards the zero point. It is purely a ratio between the
volume of the universe and the zero point.
This means that there are two parts for the zero point
We must
consider the zero point as a fixed point linked to the
volume of the universe.
We use a unitbased
number system. No matter how small a unit we use, it
will always be greater than zero. The zero point of the
universe is a point that ends at infinity.
The
universe is a selfevolving and selfadjusting system
that will always try to correct imbalance to a stable
state.
The universe cannot stabilize a point that
ends at infinity, therefore it moves slightly back and
forth above its zero point in a futile attempt to create
stability.
You can see for yourself if you can
find another solution or proof of the dynamic properties
of the universe.
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Remark
In the mathematical system that I use; is the
velocity of the mass a span of the zero point and the
volume is the volume of the universe. Both parts work in
the meter system.
For more details, see my
section on mass formation.
Energy, measured in
mass, is:
m = V * c^{2}
You can also measure the mass's energy in joules:
E = m * c^{2}
One can say of the universe as a whole; on the one hand there is
nothing and yet there is something.
Next episode is classic big bang.
 
The
Universe.
Classic big bang.
Mass
formation.
Atom
structure.
Molecular binding.
Particle radiation
