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Well you could just scale addition and arithmetic up into
multiplication space like that (into area) and they would be constant
rate in area but why bother when it's simple to derive from first or
common principles. Still so wide.... Basically still is memoryless.
Model power electonics through generally there inert crystalline media
(with built in flow gradient).
You want a hybrid of binary logic and basically speciated lines.
Would seem to be holographic projection on the reset so then would
benefit crystal doping or along lines of sample reconstruction.
"I extended that analogy to reconstruct Feynman's Path Integral from
simple logic. The conversion is achieved by representing the material
implication of logic with the Dirac delta function and then using the
complex gaussian form of the Dirac delta. However, at this point my
derivation has not been reviewed by reputable sources. It has yet to
pass the standards of rigor required by mathematical logicians. Until
that time, this effort should be considered preliminary."
Yeah, me neither, haven't yet all explained Feynmann integrals (path
integrals). How I explain Path integrals' difference from 1.000...
in measurement is simply vanishing constant on measurement power and
configuration. Yeah sure they work out to 1.000... but spin it up
and it's relative. I work that up from first principles on the
polydimensional. Still working on: electron or photon.
I think the quote describes a framework for discussing representations
of the phasics of concern quite generally, which I just invented that
word, from the real out through the hypercomplex and that's plain in
phase and transport, then see from the first and universal principles
that the add-up would have those values and why. I don't know what
all those are, ..., just these things I notice, from basically
hammering on foundations for, some time.
So for the Path integral, it is famous where Feynmann shows us how the
particle transmits through space and that while the distance is 1,
that it adds up to 1.00000018.... or 1.00000000018... or smaller in a
reducing constant along measurement, just like in the standard
experiment that higher energy experiments increase instead of bound.
Yet, the constant matters even as it vanishes in the resolution so for
the effect. This must somehow transfer up to the general bond media.
Then maybe it would do so along variously organizing normal lines.
Physics from first principles: none.