Theory: Henryk Szubinski
The amount of pressure must be in some reference to the size of it on every body in space and the size of solar flares and water plumes and other fluids so that the relationship between them is in scale with the edge of the universe .
The basic distribution of galaxies in each 1 degree of view over the night sky is populated by about 10 000 galaxies, so that when the whole sphere is used for each 1 degree of position , the total is equal to the same view of the 1 degree linear symmetry from the edge of the universe as being linear in nature. Much like the warp drive function of stars moving passed us in the spaceship example. It is this amount of the 1 degree that defines the pressure on the edge of the universe as being = radius and the opposite of the universe as the diagonal, so they are in terms of each other = 1/2
as 1r / 2dia = 0.5
As the mass center of the universe is 0.5 / 360 degrees=
720 units of mass as pressure to the edge of the circumference.
So each 1 degree unit must have the total of the whole sphere as the 1 trillion galaxies in total
So the pressure = 720 x 1 000 000 000 000
= 720 trillion units of pressure on the whole of the edge of the universe and the pressure release must be
1/ 720 000 000 000 000= 1.3888 x 10 to the power of -15
as the constant of the pressure at any one point on the surface edge or inside of the limit of space as
the universe which is then in 3 zones proximity to the edge as
2 / 1.388 x 10 to the -15=1.44 x 10 to the 16 and then the 3rd zone of the edge of the universe as
1.44 x 10 to the 16 / 3=4.8 x10 to the 15
The basic distribution of galaxies in each 1 degree of view over the night sky is populated by about 10 000 galaxies, so that when the whole sphere is used for each 1 degree of position , the total is equal to the same view of the 1 degree linear symmetry from the edge of the universe as being linear in nature. Much like the warp drive function of stars moving passed us in the spaceship example. It is this amount of the 1 degree that defines the pressure on the edge of the universe as being = radius and the opposite of the universe as the diagonal, so they are in terms of each other = 1/2
as 1r / 2dia = 0.5
As the mass center of the universe is 0.5 / 360 degrees=
720 units of mass as pressure to the edge of the circumference.
So each 1 degree unit must have the total of the whole sphere as the 1 trillion galaxies in total
So the pressure = 720 x 1 000 000 000 000
= 720 trillion units of pressure on the whole of the edge of the universe and the pressure release must be
1/ 720 000 000 000 000= 1.3888 x 10 to the power of -15
as the constant of the pressure at any one point on the surface edge or inside of the limit of space as
the universe which is then in 3 zones proximity to the edge as
2 / 1.388 x 10 to the -15=1.44 x 10 to the 16 and then the 3rd zone of the edge of the universe as
1.44 x 10 to the 16 / 3=4.8 x10 to the 15
the question being , "does the layers relationship of pressure arrange itself in relation to the small to the big or is the universe starting to eject mass that is not visable in the spectrum of light in space as dark matter or dark energy.
Or are we faced with the equations that follow along with the conservation of pressure lust as Einstein devised the way to compute the light particle and wave in motion to this point in space where i present the next stage, that the light becomes infinitely heavy due to the absolute velocity being present at the edge of the universe where light creates light and has the effect of transforming from light into pressure and then space outside the universe or inside the universe.
Could it be that we are already observing other universes with their edges clearly visable as the zones where dark matter and dark energy exists as bubbles of various intense color spectrum. May it be that we have explored so much of the known universe that we have not noticed that we are also observing other universes in the larger space we have already discovered.
When we look closer at dark matter as other universes to observe their surfaces , we might find that the pressure release feature is present there also in universal amounts of light creating light as it is ejected from their surfaces, and our scale changes to being able to zoom into dark matter zones and observe trillions of galaxies within them.
Are there any universes on the edge of our universe?.
And what is their appearance as the change from the 2 dimensional surface of the universe as it is pressed together by the pressure inside the universe to the outside of it.
As such the change must be zero because the multi verses already exist.
Or are we faced with the equations that follow along with the conservation of pressure lust as Einstein devised the way to compute the light particle and wave in motion to this point in space where i present the next stage, that the light becomes infinitely heavy due to the absolute velocity being present at the edge of the universe where light creates light and has the effect of transforming from light into pressure and then space outside the universe or inside the universe.
Could it be that we are already observing other universes with their edges clearly visable as the zones where dark matter and dark energy exists as bubbles of various intense color spectrum. May it be that we have explored so much of the known universe that we have not noticed that we are also observing other universes in the larger space we have already discovered.
When we look closer at dark matter as other universes to observe their surfaces , we might find that the pressure release feature is present there also in universal amounts of light creating light as it is ejected from their surfaces, and our scale changes to being able to zoom into dark matter zones and observe trillions of galaxies within them.
Are there any universes on the edge of our universe?.
And what is their appearance as the change from the 2 dimensional surface of the universe as it is pressed together by the pressure inside the universe to the outside of it.
As such the change must be zero because the multi verses already exist.
The difference of the 5832 c and the 4096 c
=1736
So the space may be compressed just as light may be compressed as the space between light particles and this then defines the function of gravity which is in nature present as the compression of light or space as it's function= storage.
So it is possible our universe is collecting or storing black holes.
=1736
So the space may be compressed just as light may be compressed as the space between light particles and this then defines the function of gravity which is in nature present as the compression of light or space as it's function= storage.
So it is possible our universe is collecting or storing black holes.
The difference between 2 and 3 is the instant moment of the universe being everywhere equal, so this does not depend on the singularity but the fact that other universes already have this "instant resource" as other numbers such as 2 and 3.
So black holes may be in motion towards light or pressure in other universes or at the edge of them.
So black holes may be in motion towards light or pressure in other universes or at the edge of them.