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Monday, September 11, 2017

AuT Quantum Entanglement

QE is one of those areas where a great deal more work can be done.  The basic model has been there since F-series preservation was begun, but its application is more complex than has been fully developed, even though the basic idea is covered.  The idea suggested, but not proven, is that positive and negative results are preserved through f-series time extension.  Every change in x results in a longer lifespan for already created information states as either positive or negative.  The exact mechanism is not given so it is possible that the later created information states have the longer lifespans.
Let's look at an example:
x=1 the ct1 state would switch back and forth between positive and negative with every change in x.  It would be very unstable.
x=10 the ct1 state would switch back and forth between positive and negative with either (1) every 10 changes in x or (2) every 34 changes in x (34 is the f-series number for 10)
If x=170 the change would be 1) every 170 changes in x or 2) every 3.56x10^34 changes in x.  As can be seen where f-series changes are used, a very stable universe is created even at low values of x although there are 1.07x10^37 changes per second once time is introduced.

Quote of the day, applicable to the universe and how it addresses the physicist:

... the Jordan. It is in a hurry and a secret rage. Yet there is something powerful, self-reliant, inevitable about it. In thousands of years it has changed less than any river in the world. It is a flowing, everlasting symbol of division, of separation: a river of solemn meetings and partings like that of Elijah and Elisha, of Jesus and John the Baptist: a type of the narrow stream of death. It seems to say to man, "Cross me if you will, if you can; and then go your way."

Quantum Entanglement:


Quantum entanglement has a slightly different origin and explanation which we can revisit from a prior diagrams that have been part of AuT since the beginning.  F-series building, and since book 1 was published first showing information arms.


          In this diagram, it can be seen that F-series building necessarily results in some entanglement with other states.

That picture above shows how states are necessarily entangled, but what happens to cause them to separate.  To see this, you may look at velocity and higher state compression.


          AA2 shows one of these bundles of otherwise entangled solutions being booted out.  At the ct2 level it is easy to visualize, but at higher states the degree of entanglement and the amount of history included are much greater.




The idea is that like almost all accurate observations, AuT presupposes the result and explains it.  However, observations have to be taken with a grain of salt because they reflect incompletely what is happening at a quantum level.



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