promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
Why the Baryon asymmetry then? Did baryogenesis actually happen, and if so, if the universe lost its thermodynamic equilibrium (the Sakharov conditions being met), would universes be transferring energy to each other through black holes?
The draining of energy from a universe with a finite amount of matter and anti-matter in it would happen via the black holes... but how would new energy be introduced
into a system/universe?
Nova and supernova will eventually stop happening as the gas that condenses to form stars is limited. So an exploding star isn't the backside of a black hole. So where's the backside? If the theory is black holes are transferring energy... or at least swallowing the energy in the space around it, and energy can't be destroyed, where's it goin?
What do you think the so-called 'big bang' came from, exactly?
Nothing?
Also, the 'backside' of a black hole is a Wrong terminology. Unless, of course, one wants to say and claim that what is perceived as the 'observable universe' came about or started from the 'big bang' of a 'backside'.
See, what is the so-called 'backside', to some, is the 'front side' or 'beginning', to others. Again, absolutely everything is relative, to the observer.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
"The Standard Model can incorporate baryogenesis, though the amount of net baryons (and leptons) thus created may not be sufficient to account for the present baryon asymmetry. There is a required one excess quark per billion quark-antiquark pairs in the early universe
The Universe, Itself, was never 'early'. In other words, there is no 'early Universe'.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
in order to provide all the observed matter in the universe. This insufficiency has not yet been explained, theoretically or otherwise."
But, how all of the observed matter in the Universe exists is already known, and well understood.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
I propose that a black hole's gravitational force breaks matter down beyond its subatomic parts and redistributes it, the energy, as individual quarks in another space/time.
But, there is only this one Universe, and It is in this 'one place and time' HERE-NOW, always. There is no other place, nor time.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
Could this energy be the excess quarks that quark-anti quark pairs have when baryons originate?
If the standard model can't explain the ratio of matter and anti-matter in this universe, and a) any universe that doesn't achieve baryon symmetry and thermodynamic equilibrium can't be a self contained single system with a finite supply of energy and b) the Gustave Vonhamsonshmidt thesis of quantum brane gravity transfers through black holes between isolated space/time systems, is correct, then this might explain the excess of quarks for baryon quark pairs.
The TOE ends up at, 'Every thing has an opposite, with equilibrium'.
The only 'model' that works and fits, perfectly, is the Universe is one system where the two opposite things co-exist, in equilibrium, always HERE-NOW.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
One excess quark per billion quark-anti quark pairs needed to account for the amount of matter in this universe.
Now this has to happen seconds after the initial inflation (big bang) or else in a few billion years that universe will flatten out and experience thermodynamic death.
I surmise that an initial universe inflation period (fractions of a second) has such force as to pull quarks from neighboring branes through black holes.
So-called pulling quarks from the 'other side' of 'singularities', or from other parts of the one Universe through 'singularities', may well happen and occur, but there is no 'initial Universe', as there is no 'expansion of the Universe', neither.
promethean75 wrote: ↑Wed Mar 20, 2024 2:43 am
That's how the needed asymmetry for matter is reached. Otherwise, this universe we're in would have died billions of years ago.
The Universe does not end like It will never begin.
The Universe is eternal, as well as infinite.