Kermit1941
01-21-2008, 10:54 PM
I have visualized a model of the creation of the universe that pictures the universe as continually shrinking and predicts exactly the same observations as does the big bang model of creation.
Imagine that the universe is much much larger than pictured in the big bang model.
Astronomers talk about the observable universe. The observable universe is that part of the total universe from which light can reach the Earth.
Suppose the observable universe is only a very tiny part of the total universe.
Suppose the total universe has almost all of its mass located in a singularity at its center.
The black hole associated with this singularity is the total universe.
Our galaxy and other relatively nearby galaxies formed about the same time many billions of years ago.
All the matter in the universe is falling toward the singularity at the center.
Matter and energy closer to the singularity will fall faster than matter and energy farther away from the singularity.
According to Albert Einstein's theory of general relativity,
matter and energy are both subject to the law of gravity.
We will measure galaxies closer to the center as moving away from us.
We will measure galaxies farther away from the center as moving away from us.
All galaxies a different distance from the center than our galaxy will be perceived as moving away from us.
And the greater the difference in the distance from the center, the faster they will be perceived to be moving away from us.
This is the picture of the expanding universe that Huble postulated.
I have shown here how a shrinking universe could lead to exactly the same observations.
But there is more to my model.
While all matter and energy is falling to the center,
there is more matter and energy being created at the event horizon of the total universe.
New galaxies at the maximum distance from the singularity will replace the ones that have fallen into the singularity.
How far is the singularity from us. By the conventional means of measuring distance, we would have to say it is an infinite distance from us.
But this does not mean that the time it will take for our galaxy to fall into the singularity will be infinite.
Kermit Rose < [email protected] >
Imagine that the universe is much much larger than pictured in the big bang model.
Astronomers talk about the observable universe. The observable universe is that part of the total universe from which light can reach the Earth.
Suppose the observable universe is only a very tiny part of the total universe.
Suppose the total universe has almost all of its mass located in a singularity at its center.
The black hole associated with this singularity is the total universe.
Our galaxy and other relatively nearby galaxies formed about the same time many billions of years ago.
All the matter in the universe is falling toward the singularity at the center.
Matter and energy closer to the singularity will fall faster than matter and energy farther away from the singularity.
According to Albert Einstein's theory of general relativity,
matter and energy are both subject to the law of gravity.
We will measure galaxies closer to the center as moving away from us.
We will measure galaxies farther away from the center as moving away from us.
All galaxies a different distance from the center than our galaxy will be perceived as moving away from us.
And the greater the difference in the distance from the center, the faster they will be perceived to be moving away from us.
This is the picture of the expanding universe that Huble postulated.
I have shown here how a shrinking universe could lead to exactly the same observations.
But there is more to my model.
While all matter and energy is falling to the center,
there is more matter and energy being created at the event horizon of the total universe.
New galaxies at the maximum distance from the singularity will replace the ones that have fallen into the singularity.
How far is the singularity from us. By the conventional means of measuring distance, we would have to say it is an infinite distance from us.
But this does not mean that the time it will take for our galaxy to fall into the singularity will be infinite.
Kermit Rose < [email protected] >