Quantum fluctuation vs Time coordinate theory
There are a number of areas where theoretical physicists can, if they have any inclination, draw analogies between quantum time and non-time quantum fluctuations.
One can think of quantum physics as a probability distribution over different locations and resulting different properties. By focusing on any one property (pick anything, location, magnetic field (or any other related field by necessity), etc) and you lose track of the specifics of any other field.
If a theory predicts another current theory, that is a good indicator of progress.
When I started this undertaking, I had no knowledge of quantum gravity theories.
The idea that the process resulted in quantum time "after" gravity being the tendency of time to rewind (become non-linear) and then only because time was quantum of necessity under observation renders the theory more likely to be internally consistent.
What then of the many ways of looking at quantum gravity? These are critical to an understanding of how time becomes (or seems) linear to us. It shoudl be easier, howeverr, to understand quantum gravity once you understand why it has to be quantum, and this is because it derives from quantum time that has achieved linearity or is exhibiting linearity. This is the difference between Non-linear quantum time theory and quantum gravity theory.
The former defines what the latter is. Quantum gravity tries to assign a methodology for the existence of quantum time. Once one realizes what quantum gravity is, it should be easier to describe how it comes to exist. Furhter, knowing that quantum time only exhibits itself by chainging coordinates and that the change in coordinates once can see that gravity and the curvature of space relate directly to the way in which time expresses its linearity and this means that the way in which time becomes linear creates curvature as well as dimension. That is to ssay the way in which the coordinates of time change creates curvature as well as gravity.
This will be the focus of then of the discussion of quantum gravity. What do the various theories of quantum gravity say about the creation of space curvature and linearity of quantum time. This should yield a much clarified theory of quantum time compared to the current method of examining quantum time based on a study of the results.
And it will come over the holidays, all things being equal, which they rarely are.
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