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Sunday, May 26, 2013

conservation of time as an equivalent of conservation of mass and energy

In traditional physics while you can exchange and change matter and energy, in any closed system; including the universe, there is conservation of mass and energy.
The equivalent in e-hologram theory approaches several thorny issues and one which we haven't gotten to yet and will not get to in this blog in its entirety.
I'm going to refer to this as conservation of time which is a theory, but not a stable of e-hologram theory.
First-matter and energy are tendencies to which time has attached in the singularity giving them the appearance of vectors (or dimension).  The singularity allows for everything to happen at once until time is added so in order to have conservation of mass/energy in our universe, there must be a set amount of time.  Since there is a finite amount of time, it must be conserved.
Time does, however, allow for increases in dimension which means in our universe time can stretch.  Not all time stretches the same amount and dimension requires that time stretch at different rates and without friction which is logical since friction is a function of matter rubbing against matter which cannot happen in the singularity since there is no dimension and hence contact is impossible.
Friction and all interactive forces, must be related to gravity which is the tendency of matter and energy to surrender time.
Energy has less frictional aspects, so it can be seen as (1) having less time or (2) having time which has stretch so far or retracted so far (one is just the opposite of the other to us) that it does not have the same tendency to combine with adjacent time.  This stretching or retracting requires a much deeper analysis that a Sunday afternoon blog allows so we will come back to it later.

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