Having established firm footing for time-tendency as the basis for o - space it is time to take a closer look into g-space.
Since g-space isn't space at all, in fact there is no reason for distance in g-space which to us is a singularity, it is possible that all the time in g-space is spot time. This means that the big bang which created what appears to be a very large universe (in fact just an image of a singularity separated by time's effect (what we've call time burning) on tendency to return to the singularity (measured by gravity and exeprienced as energy and matter)) could be a single spot (or singularity) of time. In effect it is s-time (singularity time). The alternative is that an amount of time necessary to free up all experienced energy and matter in o-space was required and I've jokingly used global thermonuclear war time to explain this massive influx of time.
Just as space and matter and energy appear to take up massive room on o-space but is a signularity in g-space (at least by our wayof thinking) so to might time be s-time in g-space and yet attach separately to each tendency (no matter how "small" it appears when it is burned by time in o-space.
As you will recall time in the hologram model takes the place of the higgs boson so instead of having to attach gravity to other particles, you merely apply time to a tendency which has gravity by virtue of having come out of the singularity.
This provides theoretical basis for dark matter; matter which has no dimension (because it is not burning with time) but has mass because it still has the tendency to return to the singularity and may be supported by soem sort of time cloud which is supported somewhat by the fact that mass that is together (tendency localized) shares time sufficiently not to separate without the application of outside factors (acceleration, etc).
The questions this raises are greater than the answers it provides as is true of all scientific advances. For example is dark matter coverible to regular matter by the application of time; is dark matter immune to time; can time be shared merely by bringing dark matter into proximity with regular matter (matter experiencing dimension as a result of proximity to, attachment to or interaction (burning) with time.)
Recognition of this means that we can look at temporary black holes as temporary windows to the singularityand also as potential opportunities to separate time from tendencies. The level of potential experimentation this opens is significant.
The amount of time and status of time both in g-space and o-space and the interaction between the four recognized types of tendency (dark energy, dark matter, matter and energy) is important. E-Boson (or Higgs Time if you will) vs time clouds vs time slides must all be explored separately despite the attraction of e-bosons for its simplicity and the fact that these may overlap is important.
The next essay will discuss the effect of having time applied to all matter/energy types throughout the universe, to provide dimension to the universe which would otherwise show one.
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