WHY SUCCESSIVE COLLISION THEORY PREDICTS THE LARGE SCALE COSMIC STRUCTURES THAT WE SEE.

Quantum fluctuations in empty spacetime does not give rise to matter as it expands.

Mass and matter are not emergent properties of expanding spacetime. Our universe did not spawn from nothing.

Instead, to summarize what I feel all the observations seem to point to :

If you have not yet had the oppourtunity to review Volume One of my essay , On The Natural State of Nature, it is now available on our website ( https://thenaturalstateofnature.org ) in html&pdf (Blogs), mp4 (Videos), and mp3 (Podcasts).

I think recent images showing the rendering of the universe at cosmic scales may be sufficient over the next decade to prove Successive Collision Theory. The math and subsequent proof will take time as we continue to map out our visible universe at the largest scales. But I say the proof is already within our reach.

What would it really look like if two universes like ours collided where the first one was moving through spacetime within the largest shared reference frame between the two universes at eighty percent the speed of light and the other heading towards it at sixty percent the speed of light?

There exists a much much much larger single parent reference frame out of possibly hundreds of thousands if not millions of nested levels deep where the paths of two moving pockets of space time so far removed from our scale factor intersect and then we get collisions with the relative kinetic energy surpassing the speed of light.

1.6c, 1.7c, maybe even 1.92c. I theorize it would be possible for 1.999c to happen sometimes. That is what relativity has taught us and where our physics breaks down.

Potentially we could someday see this happening first hand. Right now I think we get one lead nuclie or atom above .9 the speed of light and smash it into another. We need to figure out how to have the other one moving in the opposite oncoming direction at the moment of impact if we really want to recreate initial big bang conditions. Have one moving at .8c and the other at .7c and then repeat with .8c and .9c and if we could somehow clearly record in slow motion that event down to billionths of nanoseconds, I have a prediction what it would look like for a short time until it regrouped.

It would look exactly like the cosmic web full of huge filament looking strings where we see the after effects of collisions that took place at relative speeds that were greater than the speed of light.

Besides the observations I pointed out earlier about the retained angular momentum inside the swirling plasma created nearly instantaneously at the moments of collisions predicting things like harmonic galactic inclinations, harmonic quasar axes, harmonic galactic periods, but the two initial trajectories and initial velocities would also come into play in the very structure of our universe as well.

The faster of the two in theory could apply more momentum during impact and dictate the direction the plasma tail would move through spacetime in.

The two masses would explode violently upon colliding, vaporizing matter to hot plasma nearly instantly, and some of that momentum would be retained in the subsequent flow of that newly vaporized hot plasma energy.

So we might then predict trails of galaxies in long strings and the density and width of the string determines the approximate size of the objects that collided and the length of the strings would dictate the approximate relative speed of the objects that were obliterated and vaporized. Then over the evolution of our speck of the Universe the first stars that we are pretty sure were huge we know burned out quickly and second generation stars lasted a little longer so we should expect two types of nebulous hazes along the outskirts of the filaments, the older one would be further out and more diffuse and the younger ones would be a little denser along the main strands.

We are beginning to map out this picture and the math will someday follow. If you search google images for cosmic web or check out this rendering of Laniakea, our home super cluster :

Imagine if you can BANG, a BIG one.. Millions of separate collisions and some include dense galactic centers. Lets pick out a single collision. A large black hole and a neutron star collide with the relative potential energy of colliding at 1.86 times the speed of light. Massive release of energy in the form of heat and vaporization of matter nearly instantly to the massless high energy photons and possibly over a short period of time the first nearly massless electron neutrinos start popping up. Momentum spins the eddies of plasma energy which creates fields that attracts them no different than gravity would if they were more massive.

The momentum from the faster "universe" also drives the resulting wisps of photonic energy into the trajectory and velocity of the strings that get spawned. Shortly afterwards within the wisps of high energy photons there will be areas that obtain mass as they attract to each other and by law they will then slow down.

Successive collision theory would predict that hot fast spinning clumps of high energy photons at the moments the first electron neutrinos formed and the first quarks formed would be expected to veer off from the trajectory of the rest of the energy still massless.

I predict that would look like strands pouring out of the main string with tentacles pouring out from the strands. Wisps of hot dense energy forming cohesive pockets of spacetime , slowing down, creating their own trails of energy being pulled along as they wisped away at the very moments that the heat cools enough for more quarks to start forming. The flow of energy cooling from pure high energy photons to first forming the quarks as it cooled would look a heck of a lot what we are now thinking Laniakea looks like. (in my humble opinion)

From the very earliest moments as the hot fast spinning energy begins to pick up mass, they will clump up and pick up satellites that are nearby and the successive game of follow the leader begins. Our entire visible universe is made from nested pockets of relative spacetime massenergy playing follow the leader where the most massive bodies drag all their children along for the ride.

Each pocket providing the base perception of both space and time to all its children bodies. I hope you have a chance to review the propositions I offered up as supporting evidence for Successive Collision Theory here : The Natural State Of Nature . If you follow what I feel is the true nature of spacetime, nested pockets of relative spacetime massenergy, then the physics of SCT become visible and the work in volume two that explains why SCT would predict a variable and increasing rate of cosmic expansion to spacetime itself will all make perfect sense.

I predict cosmology will evolve to become a complex set of equations trying to show all the different pairs or groups of objects that collided. All will be given names and a parent, each with their respective prior relative trajectories and relative velocities, an approximate angle of impact and degree of impact and approximate mass. Potentially an order of events and collisions might even be determined and an actual computer simulation of the entire set of collisions that created all we can see could be rendered.

#therealbigbangs #successivecollisiontheory #thebigbang #BIGBANG #thenaturalstateofnature

LIVE LONG AND PROSPER
MAY THE FORCE BE WITH YOU

SAY IT LOUD, SAY IT PROUD
THERE IS NO BOTTOM TURTLE.

All the darkness in the entire vast multiverse can not defeat the flame of a single candle.

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DR JM NIPOK