IFINITUM THEORY OF ZERO

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INFINITUM THEORY OF ZERO (preface)
Mike Grainer, Feb. 28th, 2023
I must begin by defining a vacuum. Absolutely nothing. Zero. Therefore, a vacuum in our known universe is not a true vacuum. We believe that there is no such thing as a true vacuum anywhere inside of the universe because the universe has been defined as a fabric of spacetime where gravity affects any and all things containing mass. A true vacuum would be absolutely nothing. No photons, no sub-atomic particles, no gravity, and no time. Our current belief of the universe’s creation, was that it was the beginning of time and space itself. We define that space as occupied by particles, some of which can pop in and out of existence. We have seen particles popping into existence in our spacetime universe. My point is that these particles are popping into spacetime, not a true vacuum, because we believe there are no true vacuums inside our universe. Therefore, one can say that if Hawking was correct and a particle just popped into existence, the only thing it could have popped into would be infinite vacuum space. Not spacetime. Imagine a true infinite empty space. Not spacetime. There is no time possible because there are no particles, no matter, no objects that can be relative in distance or time. Just Nothing. Hawking may have not realized this, but he himself had proposed an infinite space before the creation of the universe. Imagine one particle pops into existence, and from there the universe begins. It expands, matter is formed, and spacetime is created. As it gets bigger it occupies only part of an infinite body. The amount of anything inside the universe is in direct relation to the expansion of our universe inside the infinite space outside our universe. This transformation is what we call dark energy. We currently believe in the existence of dark matter because there is an unseen and practically undetectable gravity holding galaxies together. I believe that’s the vacuum of true nothingness absorbed by the universe as it expands, in to the empty void outside the universe. A common problem in astrophysics and quantum mechanics is that the math keeps ending up with zeros and infinites. In physics, when you come up with zeros and infinites, it usually means that the math is wrong. That’s what we believed. It is actually the proof of an infinite true vacuum outside of the universe. The fact that the universe is expanding faster and faster, is because there is no resistance, and actions such as a supernova behave like a second stage rocket. Time needs space to exist, but space does not need time to exist. Our closest object to a true vacuum is a blackhole. Perhaps it is not that light can not escape a blackhole, but rather it can not enter because it is part of the outside universe where spacetime, light, matter and energy do not exist. Gravity pulls objects to it, but nothing goes in. The stuff thrown out of a quesar is just the accumulated orbiting junk, known as the acceleration disk. When the blackholes gravity can’t hold it revolving, it shoots it out. The dark matter or anti-spacetime (TRUE vacuum inside spacetime) creates gravity, not mass. Swarzchild’s solution from Einstein’s field equations predicts blackholes because the math says infinite. We believe that when blackholes form they take a finite amount of mass and as you collapse it down, its volume should shrink all the way to zero, but that means that it has infinite density, and infinite gravity. That never made sense to us. An infinite true vacuum outside of the universe can solve all the singularity, temperature, math, gravity, and quantum paradoxes and failures. Excited? You will be…….
 
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My condensed version of the origin of the universe.

Electrons are a particle that is summoned from a soup of electrons. Is it electromagnetism that lets them appear here momentarily? Are the electrons we measure the same as we measured a split second ago as they are not in the same place? These were the questions that got me started thinking.
Electrons are the key they are in QL soup most of the time. They are like puzzle pieces that fit but there are many pieces floating around that will fit. They stay in the QL soup until they are summoned by measuring. We see electrons popping into atoms to maintain the balance. When we fire an election it causes ripples in the waiting candidates, this is why we see an interference pattern from the double slit experiment. If we measure after it is fired we establish a vector so only the electrons along this vector can hit the wall. This entanglement would explain the particle wave quandary. If this is the case what else is in the soup. Entanglement has been shown to be instantaneous the soup being outside of spacetime is subject to other rules.
Dark matter is part of the QL(Quark/Lepton) soup in which there is a bubble of space time.

Two universe cosmological model
https://phys.org/news/2022-05-bilayer-graphene-two-universe-cosmological.html

When the spacetime bubble first formed baryonic matter precipitated out of the QL soup. We are in that soup and haven’t yet figured out how to see it.
Picture a clear cloudless sky that in almost no time is filled with puffy white clouds. This is how I believe the spacetime bubble we are in was formed.This would have happened where inflation was assumed to end. As spacetime cooled the gaseous dark matter cooled. When it reached the temperature at which dark matter condenses the collapsing dark matter gravitationally pulls the baryonic matter with it into denser clouds.
The rapidly forming clouds collapsed into black holes of all sizes and huge stars depending how much baryonic matter pulled into that area by the condensing dark matter. More spacetime is constantly precipitating out although the soup is thinning there is still plenty of broth. We can’t find dark matter because it is outside of spacetime.
Dark matter phase transition heats or cools electrons (Leptons/etc) in the area as the electrons vibrate in and out of spacetime which over time heat the adjoining material inside spacetime. Liquid dark matter phase transitioning is the silent partner of plasma physics as it is probably the biggest ionizer in the universe. There may be other in and out of space time components (Quarks/etc) of matter as well. This is where electrons are unless we pull them through by measuring or making them stay here. Every atom has multiple identical electrons that can report for duty. Waves of electrons ripple through the soup when one is plucked out, unless they encounter electrons of other baryonic matter. Double slit experiments pick the eligible electrons off of the peaks of these waves. and entanglement.

The following problems can all be solved by there being 2 states of dark matter.
Liquid dark matter and gaseous dark matter.

Problem: During the full moon the laser return from the moon disappears. The same effect may be found on Eros.

Assumption: the earths gravity well pulls dark matter towards it. This has the effect of concentrating the amount of liquid dark matter which phase transitions on the way to the moon due to the zero G equivalent. (Velocity versus gravity - parabolic path)
Problem : the corona of the sun is being heated

Assumption: Liquid dark matter is raining down on the sun and as it’s velocity versus gravity reaches a zero G equivalent it flashes to gaseous dark matter which heats electrons in the the corona and accelerates a mix of electrons, liquid and gaseous dark matter( the outside spacetime accelerated mix=TOSAM back out into the solar system. This flow is what accelerates the solar wind.

Problem : the area between the sun and the corona is much cooler

Assumption: as the gravity increases the more gaseous dark matter condenses cooling this area(cooling being relative)

Problem : what causes coronal holes and sunspot’s

Assumption: as the condensed dark matter passes beneath the surface of the sun the temperature rises and near the core the gravity decreases the dark matter reverts to its gaseous state. The closest and primary release for this expansion is at the poles of the sun. As the dark matter nears the surface of the sun again most of it condenses and collapses which promotes circulation upward and outward. Momentum carries TOSAM and plasma into the solar system as the solar wind. This results in the cooler areas on the surface of the sun. My thought is that if we could see the dark matter sphere that co-rotates around the sun it would look a lot like Jupiter except that dark matter is always being added and spun off or blasted into space. The offset of the dark matter sphere and the sun is a major contributor to the sunspot cycle as the dark matter rotates around the geocenter of the solar system.

Problem : what accelerates the solar wind

Assumption: when liquid dark matter rains down toward the sun it encounters the rotating dark matter sphere. As it slows upon entry of this sphere it reaches the zero g equivalent which causes the liquid dark matter to flash to gaseous dark matter. This accelerates the dark matter above it outward at high velocities. Innumerable flashes is what accelerates the solar wind.

Problem : The heating of Ceres, Jupiter, Pluto and the water moons

Assumption: anywhere that liquid dark matter is exposed to zero g or equivalent as at the centre of any object with enough mass that it’s Center of gravity is within the object the dark matter flashes to gaseous dark matter and releases heat.

Problem : the effects of heating of larger asteroids

Assumption: when the centre of mass of an asteroid falls within the solid body of the asteroid sublimation of volatiles results in cliff collapses(Rosetta to 67P) or acceleration of the asteroid(Oumuamua)

Problem : circulation of dark matter in the solar system or galaxy

Assumption: the closer to the plane the higher the liquid dark matter content. As this dark matter encounters planets, moons and asteroids some of it is converted to gaseous dark matter and begins to rise away from the plane due to expansion. The farther from the sun the more expansion has happened which causes it to circulate back toward the plane as it gets farther from the sun. This whole process sweeps dust and gas back toward the middle. This concentration and the condensing gaseous dark matter due to the gravity below causes the saturated dark matter to sink back towards the sun. Evaporation and condensation of dark matter in the gravity well is the key to circulation in the solar system. Jupiter also has enough gravity to have heating in its atmosphere due to zero G equivalent flashing.

Problem : accretion rates

Assumption: during the accretion phase gaseous dark matter is condensed by gravity which causes a net acceleration of the inward flow while the outflow which contains a higher ratio of condensed dark matter that comes from the poles rains back down on the disk compressing it and flowing back toward the middle. The incoming ratio of gaseous to liquid dark matter is a major contributor to the accretion rate. This flow reverses once there is enough heat to change the flow from the poles to gaseous dark matter. At this point the majority of the liquid dark matter outflow migrates to the equator. As this progresses this change of circulation may mean that the gas and dust flow migrated inward initially and back out again later on during the formation of the solar system.

Problem : stellar jets

Assumption: When nuclear fusion starts in the core the jets of gaseous dark matter rather than recondensing and circulating explodes straight out of the core in such a strong steady stream(TOSAM) that it carry’s plasma with it. Once the jet begins to slow and spread out the turbulence allows the zero G effect on liquid dark matter that is carried along with the jet. This will further accelerate the jet as the entrained liquid dark matter flashes.







Problem : lack of clumping of dark matter

Assumption: most of the dark matter in and around stars and AGN are gaseous dark matter although this ratio decreases when the Galactic Nucleus is not Active.

Problem : black hole jets

Assumption: When the accretion disk begin to heat up it also causes the jets of gaseous dark matter to explode straight out of the poles of the co-rotating sphere of liquid dark matter in such a strong steady stream that it carry’s plasma and liquid dark matter with it. Once the jet begins to slow and spread out the turbulence allows the vomit comet effect to affect any of the liquid dark matter carried in the jet. This releases more heat and the expansion further accelerates the jet.

Problem : heating at the edge of the galactic halo

Assumption: anywhere that liquid dark matter is exposed to zero g or equivalent it flashes to gaseous dark matter and releases heat.
circulating dark matter

Dark matter is originally started circulating by matter accreting to form a star. During this process the baryonic matter and dark energy are both heated by the collapse. Dark matter behaves like a superfluid and thus it is slowly brought up to speed by the rotation of normal matter. ie planets, stars, solar systems and galaxies, all of which have their own circulation patterns. The larger the circulation the more gas and dust is accelerated by the pattern. Dark matter is like the ocean it has currents and streams. It also has different salinities (concentrations of normal matter) depending on how much dust and gas has been accumulated. Where these flows intersect or cross there are collisions of normal matter which give off radio waves. Individually they are too small to be detected. But if you look down a stream you see the cumulative effect from the stream and the galactic halo interactions behind it which add up to something we can detect. On a galactic scale the dark (water) cycle determines how much dark matter a galaxy has. If there is not enough circulation the dark matter content drops as not enough dark energy is recondensed. To collapse dark energy you need heat and gravity, if the galactic Center doesn’t have enough heat (AGN or stars that also create dark matter) the dark matter content will drop. Dark energy in the dark matter circulation would tend to migrate up and out of the gravity well.
Dark matter would tend to migrate down in the gravity well. Both could carry gas/dust although the dark energy would have a much lower density.
 
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INFINITUM THEORY OF ZERO (preface)
Mike Grainer, Feb. 28th, 2023
I must begin by defining a vacuum. Absolutely nothing. Zero. Therefore, a vacuum in our known universe is not a true vacuum. We believe that there is no such thing as a true vacuum anywhere inside of the universe because the universe has been defined as a fabric of spacetime where gravity affects any and all things containing mass. A true vacuum would be absolutely nothing. No photons, no sub-atomic particles, no gravity, and no time. Our current belief of the universe’s creation, was that it was the beginning of time and space itself. We define that space as occupied by particles, some of which can pop in and out of existence. We have seen particles popping into existence in our spacetime universe. My point is that these particles are popping into spacetime, not a true vacuum, because we believe there are no true vacuums inside our universe. Therefore, one can say that if Hawking was correct and a particle just popped into existence, the only thing it could have popped into would be infinite vacuum space. Not spacetime. Imagine a true infinite empty space. Not spacetime. There is no time possible because there are no particles, no matter, no objects that can be relative in distance or time. Just Nothing. Hawking may have not realized this, but he himself had proposed an infinite space before the creation of the universe. Imagine one particle pops into existence, and from there the universe begins. It expands, matter is formed, and spacetime is created. As it gets bigger it occupies only part of an infinite body. The amount of anything inside the universe is in direct relation to the expansion of our universe inside the infinite space outside our universe. This transformation is what we call dark energy. We currently believe in the existence of dark matter because there is an unseen and practically undetectable gravity holding galaxies together. I believe that’s the vacuum of true nothingness absorbed by the universe as it expands, in to the empty void outside the universe. A common problem in astrophysics and quantum mechanics is that the math keeps ending up with zeros and infinites. In physics, when you come up with zeros and infinites, it usually means that the math is wrong. That’s what we believed. It is actually the proof of an infinite true vacuum outside of the universe. The fact that the universe is expanding faster and faster, is because there is no resistance, and actions such as a supernova behave like a second stage rocket. Time needs space to exist, but space does not need time to exist. Our closest object to a true vacuum is a blackhole. Perhaps it is not that light can not escape a blackhole, but rather it can not enter because it is part of the outside universe where spacetime, light, matter and energy do not exist. Gravity pulls objects to it, but nothing goes in. The stuff thrown out of a quesar is just the accumulated orbiting junk, known as the acceleration disk. When the blackholes gravity can’t hold it revolving, it shoots it out. The dark matter or anti-spacetime (TRUE vacuum inside spacetime) creates gravity, not mass. Swarzchild’s solution from Einstein’s field equations predicts blackholes because the math says infinite. We believe that when blackholes form they take a finite amount of mass and as you collapse it down, its volume should shrink all the way to zero, but that means that it has infinite density, and infinite gravity. That never made sense to us. An infinite true vacuum outside of the universe can solve all the singularity, temperature, math, gravity, and quantum paradoxes and failures. Excited? You will be…….
Try breaking into smaller paragraphs. This is VERY hard to read, as is.
 

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