I want to try to state my model of how spacetime is created by quantum 
events more clearly and succinctly.

Begin by Imagining a world in which everything is computational. In 
particular where the usually imagined single pre-existing dimensional 
spacetime background does NOT exist.

Now consider how we can get a spacetime to emerge from the computations in 
a way that conceptually unifies GR and QM, eliminates all quantum 
'paradoxes', and explains the source of quantum randomness in the world.

There is an easy straightforward way though it takes a little effort to 
understand, and one must first set aside some common sense notions about 

 Assume a basic computation that occurs is the conservation of particle 
properties in any particle interaction in comp space. 

The conservation of particle properties essentially takes the amounts of 
all particle properties of incoming particles and redistributes them among 
the outgoing particles in every particle interaction.

The results of such computational events is that the particle properties of 
all outgoing particles of every event are interrelated. They have to be to 
be conserved in toto. This is called 'entanglement'. The outgoing particles 
of every event are always entangled on the particle properties conserved in 
that event.

Now some particle properties (spin, mass, energy) are dimensional particle 
properties. These are entangled too by particle interaction events. In 
other words, all dimensional particle properties between the outgoing 
particles of every event are interrelated. They have to be for them to be 
conserved. These relationships are exact. They must be to satisfy the 
conservation laws.

Now assume every such dimensional entanglement effectively creates 
a spacetime point, defined as a dimensional interrelationship.

Now assume those particles keep interacting with other particles. The 
result will be an ever expanding network of dimensional interrelationships 
which in effect creates a mini spacetime manifold of dimensional 

Now assume a human observer at the classical level which is continuously 
involved in myriads of particle interaction (e.g. millions of photons 
impinging on its retina). The effect will be that all those continuous 
particle events will result in a vast network of dimensional 
interrelationships that is perceived by the human observer as a classical 

He cannot observe any actual empty space because it doesn't actually exist. 
All that he can actually observe is actual events with dimensional 
relationships to him. Now the structure that emerges, due to the math of 
the particle property conservation laws in aggregate, is consistent and 
manifests at the classical level as the structure of our familiar 

But this, like all aspects of the classical 'physical' world, is actually a 
computational illusion. This classical spacetime doesn't actually exist. It 
must be continually maintained by myriads of continuing quantum events or 
it instantly vanishes back into the computational reality from which it 

Now an absolutely critical point in understand how this model conceptually 
unifies GR and QM and eliminates quantum paradox is that every 
mini-spacetime network that emerges from quantum events is absolutely 
independent of all others (a completely separate space) UNTIL it is linked 
and aligned with other networks through some common quantum event. When 
that occurs, and only then, all alignments of both networks are resolved 
into a single spacetime common to all its elements.

E.g. in the spin entanglement 'paradox'. When the particles are created 
their spins are exactly equal and opposite to each other, but only in their 
own frame in their own mini spacetime. They have to be to obey the 
conservation laws. That is why their orientation is unknowable to a human 
observer in his UNconnected spacetime frame of the laboratory.

However when the spin of one particle is measured that event links and 
aligns the mini-spacetime of the particles with the spacetime of the 
laboratory and that makes the spin orientations of both particles aligned 
with that of the laboratory and thereafter the spin orientation of the 
other particle will always be found equal and opposite to that of the first.

There is no FTL communication, there is no 'non-locality', there is no 
'paradox'. It all depends on the recognition that the spin orientations of 
the particles exist in a completely separate unaligned spacetime fragment 
from that of the laboratory until they are linked and aligned via a 
measurement event.


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