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Originally Posted by Bogie
The biggest advantage of the EEP, if it could be accurately described, is that it would fill in the physics necessary to cause big crunches to become big bangs.
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What is the observational evidence for more than one big bang? for big crunches?
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The scenario of accomplishing this feat traverses the cycle of matter from ending up in the core of a big crunch, destroying the big crunch causing a big bang, and then feeding and fueling the transition of a big bang to the point that we find ourselves in our known universe, and from here to a future big crunch somewhere, someday.
It is at the heart of the complete story of the big bang, nucleosynthesis, star formation, production of heavy elements in the heart of stars, and the eventual accumulation of matter from vast arenas of space into big crunches; a full cycle of an indestructible but interactive elementary energy wave/particle (EEP).
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Can quantum theory be used to describe EEPs?
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In order to accomplish this cycle the EEP must have some characteristics that set it apart for anything we can actually find and study. If we limit our description to characteristics necessary to accomplish the task, and avoid unnecessary description and characteristics, the required EEP will be a simple “thing”.
Try to be logical and rational, and evaluate the EEP from a detached perspective, and you should agree that at the instant of the big bang, the particle would be in its most excited state, and the interactions between EEPs that are possible will begin very slowly because of these highly excited and rapidly expanding circumstances.
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Why?
More particularly, how does the concept of EEPs avoid the mutual incompatibility of quantum theory and GR, in the Planck regime?
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I picture a rapidly expanding and hot chaotic environment of free and independent EEPs, bursting out of the big crunch in an instant, and at the same time being sucked out into space in an exponential expansion by the vacuum energy density that has built up surrounded the big crunch during its formation.
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How rapid?
How hot?
Free of what?
How long is "an instant"?
What is the geometry of the space into which the EEPs are being sucked?
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The big bang burst occurs, the exponential expansion occurs, the expansion slows and the hot chaotic environment cools. In the cooling environment EEP interactions begin.
At this point the characteristics of the EEP that need to be mentioned are its ability to destroy a big crunch and cause it to burst into the chaotic hot expanding environment consisting of a finite but extremely huge number of identical indestructible EEPs, too excited to interact with each other.
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Do EEPs 'feel' the strong force? the electroweak force?
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The burst is caused by the release of pent up energy.
The energy is pent up by the repression of the pulsing action of the EEPs locked in the core of the big crunch.
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How big is this core?
What other structures does "
the big crunch" have (other than a core)?
What is doing the locking?
Are the "
pulses" periodic? If so, what is (are) the period(s)?
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So the EEP pulses, and as it pulses it moves at the speed of light.
The pulse is caused by the fact that though it is of the tiniest possible mass, it is the densest mass possible. This near infinite density makes it contract under its own warped space or gravity. It contracts until it is impossible to contact further. The point of maximum contraction brings it as close to infinite density as it is possible to get. At this point its volume has reached the smallest possible volume short of zero.
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How small is this volume?
How do EEPs avoid the mutual inconsistency between QM and GR?
(I think that's enough for now)