Inside The Whole Black Sparkly Universe., implications of the black hole universe theory.
Dec 26 2009, 01:15 PM
Joined: 1-April 07
Member No.: 875
What is a black hole?
a black hole is a region of space from which nothing, including light, can escape.
The mass is greater than the volume of space can hold. It therefore, collapses in on itself, shrinking but maintaining its' original mass.
There is a new theory by Nassim Haramein, that everything has a black hole within its center, from atoms to galaxies, and the entire universe is within a giant black hole.
The big question, is if there is a huge amount of mass, in every atom, how can we even move matter?
The answer, i think, is in incredible smallness,
we know, by definition that a black hole must shrink in diameter.
We also know that massive things,
very far away, have little gravitational effect on us,
Perhaps, massive weights, if they are infinitesimally small,
have the same tiny effect as the gravitational force effecting us from gargantuan distant galaxies.
One can begin to see the entire universe down to the atom as just
a change in a logarithmic scale.
And indeed, it has been graphically shown to be such a scale, in
frequency vs diameter.
Atoms have a high frequency;
galaxies have a low frequency,
but the ratio remains the same, at all scales!
This confirms the theory of everything, having a black hole, of scale,
in the center of all things.
Even if one ignores frequency,
and just looks at mass vs diameter
a clear line can be shown for most "things" in our universe.
The thing about all of this,
is that we should look at black holes as mass, shrinking over time.
So there is no such thing, really, as a big or small black hole,
as they all are the same weight, in different stages of collapse, at any particular time.
So, if this avenue of thought,
has anything to it,
atoms would be older than stars,
because the diameter of the black hole inside (in the atom), has collapsed to the point where it no longer has a significant gravitational influence in our universe.
...much, much, more to come.
This post has been edited by lunk: Dec 26 2009, 01:47 PM
Jan 27 2010, 10:44 AM
Joined: 1-April 07
Member No.: 875
If the speed of light is a variable, and all time based interactions must happen within it, and sound waves are going the speed of light, Perhaps the speed of light there, at the quantum transition level, is 0 compared to here at a lesser gravitational gradient?
Jerry Reynard calls this level "the neutral zone", where the speed of light has come to a stand still, relative to our measure of the speed of light. Volume is so small that time has stopped there, at the quantum transition.
The speed of light is a constant, in every curvature of space.
and the speed of light is a variable at every different curvature of space.
This looks like the 2 solutions to a square root...
then solving for c:
This is 2 solutions to a square root
At any gravitational gradient, time can be seen to be stopped, relative to a lesser gradient and still taking place at the same time. A different part scale of the entire universe exists for every gradient of gravity, within the entire frequency of the maximum speed of light, measured in that particular gravitational gradient.
So we can only know, things that fall below the maximum speed of light, that we experience, at this gravitational curvature on the surface of the Earth
for the speed of sound (the mechanical motion of matter), to be the same as the speed of light (the maximum speed of measurable frequency)
Time would have to nearly stop, there, relative to us.
...still, a bug on a tree,
but the fog is lifting.
At the quantum transition level, time would still be happening and it would take light 1 second to go 300,000 km.
But that would be a very short distance, measured from here, and that second would go on for almost eternity.
Time is shortened in greater gravity, but stays the same measured anywhere in that same curvature.
...it's a much bigger tree,
and it's in a forest, on a mountain side...
...and all the trees up and down look smaller in the distance, but when you get there they are all just as big.
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