Superconducting String Theory (Gravity Explanation)

Gravity explained by a new theory, ‘Superconducting String Theory’, inspired on initial string theories and completely opposite from actual fields based. Strengths are decomposed to make strings behave as one-dimensional with universe acting as a superconductor where resistance is near 0 and matter moves inside. Strong nuclear force, with an attraction of 10.000 Newtons is which makes space to curve, generating acceleration. More matter more acceleration. Electromagnetic moves in 8 decimals, gravity is moved from 3 to more than 30 decimals to work as a superconductor.


INTRODUCTION
The 'Theory of Everything' is a hypothetical theory of physics that explains and connects all known physical phenomena into one. There is a possible solution to the origin of gravitational force, postulating it as angular piece of this theory, this solution erases gravity as one of the fundamental forces of nature and unify it with strong nuclear force.
Let's analyze the forces that occur in the universe transforming string theory. It allows to explain many physical behaviors that without its existence would be practically impossible to understand, even so, these strings have not been able to be discovered and are only that, a theory that serves as an important support to the world of physics. One of the best known theoretical applications about them is how their vibration can provoke the creation of matter, but this is not about theories already written, we are going to place these strings in a simpler way to answer some doubts in subatomic world.
This theory use 4 dimensions in space and a behavior as one dimension in strings with superconducting capacities . Like an elastic band between V-shaped sticks where the elastic band moves down, the strong nuclear force, forces these strings to curve to move down.
It's not directly related to electromagnetism .

String theory
String theory is a theoretical framework in which the point-like particles of particle physics are replaced by onedimensional objects called strings. Each string that we cross would be the minimum distance that can be traversed during a displacement.
It's impossible these strings not to act as a superconductor of matter, remember the distance to the most distant object detected by the human being is more than 30 billion light years , that means, there are beams of light which are able to travel that distance without decreasing its speed (they modify only its wavelength). Like light, an object can move in space indefinitely across the universe from one end to the other as long as it does not find a force to stop it. If strings exist, they act as a superconductor of matter with a resistance near 0.
Gravitational waves behaves like ocean' s surface which are similar to an uptight net, these tensions can be decomposed as a one-dimensional structure for its study. Strings could have one dimension or 0 dimensions , like points with bound forces, but in order to generate waves it's easier into a strongly linked structure. Think about these strings as something tenser than any cable that hold the heaviest bridge in the world.
The picture we have drawn would be a s et of extremely tense strings, with a practically infinite matter conduction capacity.
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Strong nuclear force
Strong nuclear force is another variable. This force allows the atomic nucleus to remain together, being the strongest of the so-called fundamental interactions (gravitational, electromagnetic, strong and weak). Gluon is in charge of this interaction, it has a scope not greater than 10 raised to -15 meters, preventing the matter to separate and exerting constant attraction strength between quarks of maximum 10.000 N (F).

Fig 2 : Gluon into vacuum
This picture illustrates the four-dimensional structure of gluon-field configurations averaged over in describing the vacuum properties. The volume of the box is 2,4 by 2,4 by 3,6 fm. Contrary to the concept of an empty vacuum, this induces chromo-electric and chromo-magnetic fields in its lowest energy state. The speed of this example is billions of billions fps (frames per second).

Fundamentals
We have created a scenario with a superconductor of matter interacting with a force that makes that matter hold together, but, how can they interact? The most simple is to think about two V-shaped sticks (simulating the strings), and an elastic band that tight them in the most opened side (it would simulate the gluon, with size of 10 to the power -15 meters). What does the elastic band do if sticks are sufficiently lubricated and tense? They will slide to the thinnest side. More elastic bands, more force will be exerted on the sticks to join them, so next bands will slide even faster ( equally, more mass causes more gravity).
We are talking about unknown limits in this world, such as infinite conduction or tensions never seen in materials.
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Calculations
Formulas from inclined planes are allowed. Friction is imperceptible and we know acceleration down the plane to simulate this force into our planet. Vertical force is not gravity, its gluon force, it can be calculated considering vertical angle but this is depreciable and gluon force is estimated, so we keep 10.000 N.  Unified field theory between gravity and strong nuclear force.
 New behavior in dark matter because of differences into density of the superconductor. Lower density generate bigger angle, this implies bigger attraction force . If threads are separated, matter (m2) becomes energy (F1). Some places at universe could have bigger accelerations because of this effect; this means less dark matter than expected.  Einstein field equations . We can apply Hooke's law as a rubber band for calculations . F1 = k∆L k = Tensor which can be related to golden ratio, object speed inside universe...

∆L = Unknown displacement
Now we know where the matter is transformed into energy.

E = m2 * F1
 Planets or galaxies motion, behaviors like spherical movements due to strings-matter interaction in movement curving space (the hypotenuse from calculations could be insignificantly curved).
 Why gluon size is bigger far from earth.