4.6 The Super Cavity Theory
The purpose of the MRM is to present an alternative dimensional framework to describe relativistic macro-level effects. A debate of practical real-life observations has been avoided, but when describing gravitational effects, it becomes difficult not to draw parallels to large-scale observations within our universe.
It becomes tempting to refer to time dilation in gravitational systems as "the same time dilation that would be experienced by an object that is constantly accelerating to withstand the expansion of the universe." However, to draw this type of parallel would be jumping to conclusions because we do not know whether the observed expansion of the universe is attributable to a supersized gravitational system consistent with the EGS.
In The Super Cavity Theory, we simply assert that this is indeed the case. Visible space is a large gravitational cavity. Gravitation does not only offer a mechanism for the creation of more space; it is the only way that space is created. It is the spatial distribution of energy that defines all spatial curvatures.
At first glance, it could feel alarming that we, together with the entire visible universe, have fallen below the edge of a supersized cavity; however, according to the EGS, it seems highly unlikely that the center of a deep cavity (black hole) consists of a singularity or even a stationary object. An object that stops will lose its kinetic energy and therefore its effect on θ. Because of this effect, it is highly unlikely that deep cavities can form if movement, and thereby energy, is not preserved by the rotation of objects at all levels.
It is more probable that matter is swirling down into the cavity, and the more matter that attends this procedure, the larger the cavity will get. There will not be any definite bottom of the cavity. During this swirling, objects can form new cavities in which they can swirl into. The universe becomes a fluent hierarchical structure of spatial cavities. The curvature of our surrounding space becomes more complex, and it will be a complicated task to investigate it from an inner perspective. However, we can assert that space need not appear exactly the same in every direction. Perhaps we may be able to observe differences that could aid us in determining these large-scale curvatures and our own position within them.
Because The Super Cavity Theory describes a continuous flow of space, without beginning or end, it also calls the Big Bang Theory into question. Perhaps there are other reasons that we cannot see beyond a certain distance, and perhaps there are some portions of the visible universe where we can see farther away. Such regions would most likely be located in a band across some point of the visible universe where the curvature is bent around the main gravitational system, at q=1.
The Super Cavity Theory is in its infancy. It will require some effort to determine whether it is reasonable. If it is, it could fundamentally change our view of the creation and expansion of the universe.