Quantum Gravity and String Theory


Quantum Gravity: Reconciliation of Gravity and Quantum Mechanics

Authors: Seamus McCelt

There cannot be quantum gravity.
Although gravity and the other "forces" all work by the same means -- threads -- the situation and configurations are totally different.

Gravitational Force:

This is an atom representation: ~~~~~(●)~~~~~
This is a thread network unit (Flux): ~~~~~╳~~~~~ It is made from 10 full length threads joined at their centers (or 20 radii emanating from a common center)

Gravity is full length threads pulling atoms together via simple thread tension.


There must be individual yet connected threads pulling something together. The distance can be small -- for instance one thread separation -- but it cannot be inside of an atom. That is NOT the way it works -- gravity is one or more full length threads with tension on them. If stuff gets close enough to touch -- other "forces" take over.

Electro-magnetic Force:

Here are two electrons...

~~~~~∗~~~~~ ~~~~~∗~~~~~

When electrons are close enough to attach or bond together: there are two full length threads -- one from each electron -- completely twisted together (but still full length).


The electrons are literally tied to one another, that is much stronger than a simple thread tension pull.

Strong Force:

A free proton would look like this ~~~~~●~~~~~(that's one free thread, 18 balled, one free thread)
A free neutron would look like this ●~~~~~ (19 balled, and one free thread)
A free neutrino would look like this (20 balled)
A free electron would look like this ~~~~~∗~~~~~ (one free thread, 18 free threads in a disc shape, one free thread)

When one proton thread ~~~~~●~~~~~
and the neutron thread ●~~~~~
ball up (knot) together ●●~~~~~ that is the strong force.
Add an electron to that package ●●≈≈≈≈≈∗~~~~~ and you also get the EM force (package aka deuterium)

neutron / knot / proton / twist / electron / thread


The "knot" is just threads (like everything else) and it is balled-up between the neutron and the proton so you cannot see it. A balled-up knot is much stronger than a twist.

Comments: Pages.

Download: PDF

Submission history

[v1] 2018-03-17 07:05:12
[v2] 2018-03-19 03:31:08
[v3] 2018-04-25 22:23:55

Unique-IP document downloads: 109 times

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