PS: I agree with the rest of what you are saying here but again you are
talking about clock time, dimensional spacetime, and not P-time which is
distinct and is prior to any metrics...
On Thursday, January 16, 2014 1:23:50 PM UTC-5, Stephen Paul King wrote:
> Dear Edgar,
> I would agree with your idea here if you made one change: replace the
> single abstract computing space for all of space-time and replace it with
> an abstract computing space for each point of space-time. The *one*
> computation becomes an *infinite number* of disjoint computations. There
> are also an infinite number of different computations possible for each
> point for space time! Consider programs that are written in disjoint
> languages, i.e. that have no trivial translation between them or a common
> compiler. How many different computations can generate a simulation of the
> same physical system? More than one!
> This can be proven, I think, by rewriting A.A. Markov's diffeomorphism
> theorem into a weaker form. Something like: There does not exist a general
> algorithm that can decide in finite time whether or not a smooth
> diffeomorphism exists between any pair of 4-manifolds.
> OTOH, there do exist finite approximations of computations of clocks
> that can be defined in finite hypervolumes of space-time. This gives us the
> illusion of a present moment that is percievable at each point of
> space-time, but it is not one that can be arbitrarily extended to cover all
> of the manifold. Computation thus cannot be extendible over the entire
> manifold and thus there cannot be a global present moment that can be
> The point is that GR requires an infinite number of infinitesimal
> space-times that are "patched together" into a space-time manifold in order
> to make its predictions (including the equivalence principle). Since a
> physical clock cannot be defined *in* a infinitesimal space-time
> hypervolume (specifically the local neighborhood or "ball" of every point
> in the space-time manifold), there is no way of globally ordering the
> "present moments" that would be said to exist at each point.
> > wrote:
> Hi Jason,
> Yes I do have an explanation for how GR effects are computed. Thanks for
> asking. It's refreshing to just have someone ask a question about my
> theories rather than jumping to attack them. Much appreciated...
> The processor cycles for all computations are provided by P-time (clock
> time doesn't exist yet as it is going to be computed along with all other
> information states). Thus all computations occur simultaneously and
> continually in a non-dimensional abstract computational space as p-time
> The results of these computations is the information states of everything
> in the universe including all relativistic effects. The way this works to
> automatically get GR effects is simply to use the pure numeric information
> of the mass-energy particle property as the relative SCALE of the
> dimensionality of spacetime as it is computed. The effect of this is to
> automatically dilate (curve) spacetime around mass-energy concentrations
> and this produces the correct GR effects of curved spacetime.
> Imagine the usual GR rubber sheet model where the curvature of the rubber
> sheet is caused not by a weight sitting on it, but by a dilation of the
> spacetime grids around a central grid full of mass-energy.
> This mechanism automatically produces all the effects of GR from the
> fundamental computations as spacetime is dimensionalized by those
> computations. The slowing of time with acceleration comes by comparing the
> length and duration of motion of an object along the slope of the dilation
> to the number of orthogonal grids it crosses as it moves.
> If this is not clear let me know.
> On Thursday, January 16, 2014 11:52:39 AM UTC-5, Jason wrote:
> Do you have an explanation for why reality time computes fewer moments for
> someone accelerating than someone
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