At the energy scales characteristic of the universe's earliest moments, one can no longer approximate matter and energy using an ideal gas formulation; instead, one must use quantum field theory, and at the highest of energies, one must invoke a theory of quantum gravity, such as string theory. Cosmology is thus the pre-eminent arena in which our theories of the ultra-small will flex their muscles as we trace their role in the evolution of the universe.
There had to be some guiding princpal in regards to the schematics of "circles with points," the radius of the universe, and it's relation?
What leads the mind to consider such a thing as a center, and it's possibilties forward and backward in time? When each gravitational collapse could have initiated the same thing over and over again, by the very presence of the blackhole collapse, and the creation of strange matte,r as the darkmmatter of this universe?
A way in which to percieve the comsological constant?
Seeing Into the Heart of the Milky Way
The very heart of the Milky Way is obscured by a thick wall of dust that optical telescopes can't peer through. But astronomers have used the dust-penetrating infrared capabilities of the 6.5 metre Magellan telescope in Chile to look past the wall, and map stars never seen before. Astronomers found thousands of stars jammed into an area only 6 light-years across. The purpose of these observations was to uncover stars which could be orbiting and feeding white dwarfs, neutron stars, or even black holes. These special binary objects are thought to be more common in the crowded centre of the Milky Way.
I mean sure, things are going to bother the thinking we might have, as to where the universe actually began? What indications would reveal this to us?
I am a layman at heart who is questioning the basis of what might have become entropically designed in what we have of the universe today. I also know that at another time such circumstances can be meet by the same process that we encounter in the very formation of how this universe became what it is.
See it must be hard to pinpoint such a beginning point, because you might have needed some motivation and direction inflation would have signalled, to let us know the measures we have today, were much different as we looked to the center of the universe?
So such a center would have had to to have some basis for how such motivation would insighted inflation to become what it is? Also, such an arrow would have ran in one direction, so how could such rejuvenation process ever have signal cyclical natures to have the universe in the position it is with a temperature, as such and such an age of 13.7 billions years old?
Spontaneous Inflation and the Origin of the Arrow of Time Sean M. Carroll and Jennifer Chen
The role of initial conditions in cosmology is unique within the physical sciences. We only have a single observable universe, rather than the ability to change boundary conditions and run experiments multiple times. A complete theory of cosmology therefore involves not only a set of dynamical laws, but a specification of the particular initial conditions giving rise to the universe we see.
One could certainly argue that the origin of our initial conditions is not an answerable scientific question. Given the state of our universe at the present time, and a complete set of dynamical laws describing its evolution, we can in principle solve for the entire history, including whatever the initial state was. Ultimately, we are stuck with the boundary conditions we have. Similarly, however, we are stuck with the laws of physics that we have, but this constraint doesn’t stop us from searching for deep principles underlying their nature. It therefore seems sensible to treat our initial conditions in the same way, and try to understand why we have these conditions rather than some others.
One had to hold in mind the energy/matter relation
For a view that had been materializing and issues raised in my mind, while very far from complete, I started to wonder about the initial conditions of the universe then. If we were consistent in the way we implored the undertanding of the standard model in the inception of this universe, how and what process would geometrically have taken it from the classical defintion of the macro universe, down to the quantum geometric one?
No equillibrium states? How is that possible in context of the views that I am showing in consideration of the lagrange points. The pathway travelled would hav eseemed to have found the easiest route, while, such inflative consideration would also have found a point on which such superfluid strangeness that would come into play?
This is a troubling issue in my mind, becuase there are other events within context of the universe as we know it today, that would have been taken down to the original conditions. These should hve been consistent with where the center of the universe began in like mindedness, as to it's origination.
So thinking of a center in the overall perspective did not seem to unlikely for me?
Well there are better minds out there as I ponder the ideas that I do. This universe then would seem to have "holes" that would have arisen from the very functionability of macrostate blackhole production, that would have continued to fuel the inflation of this universe?
So in the sense I seen in this blog the ideas and questions then arise around how we see blackhole production fuel the inflation to entropic design. That we have the particle shower to not only consider, but also the state of the universe in it's beginnings, as well as such constituents formed, as the galaxies, stars and planets.