ZPEnergy.com - Dark matter

What is dark matter? - dark matter is the stuff between the things we see.

In Astronomy, as in all sciences, one can detect an object in one of two ways: either by observing it directly, or observing the effect that it exerts on more visible bodies. The existence of these fundamental particles maybe undetectable as they harbor such miniscule matter structure.

Dark matter is a generic term for these fundamental particles in the local universe. Despite the fact they are not visible to our technology, their presence is inferred by their influence on the more visible celestial bodies. Their exact form maybe controversial but they DO emit and accrete thermal informantion omni- directional and when favorable conditions present themselves they will alluminate. While there is a consensus in the astronomical community that most of the mass in the our galaxy and of most galaxies, is in the form of dark matter.

A more compelling arguments for dark matter: Let us hypothesize, and permeate the entire mass structure including the whole of the local universe with fundamntal particles, (DM) and construct a contiguous infomation transference medium. It is only logical to assume that the greater universe was created from a very few value varying quantum thermal units. The evidence from observations of the universe point to everything as being influenced by thermal information.

At this point in time cosmologists don't know what dark matter is. With understanding the movements of celestial objects, great strides have been taken in the comprehension of the local universe. The nature of dark matter and its abundance, are crucial questions in modern cosmology. Since an insignificant percentage of all matter is visible, it is therefore logical to assume the possibility that this non - visual dark matter helps to determine the type of local universe and how it performs.

We may speculate as to what percentage of the local Universe is dark matter, whether galaxies and all macro matter contribute 1% or 10% the fact is 90 to 99% still remains dark matter and potential rest energy. (dark energy?)

Dark matter is a combination of two varying fundamental particle flavors, a negatively charged particle and a neutral particle (graviton) In order for graviton particles to exhibit thermal (gravitational) influence they must possess mass. To be instrumental in the construction of plasma, graviton particles must rest in an adjacent formation. Sequentially vast quantities of contactual neutral particles are needed to simply fill the volume and implement a route for universal thermal transference.

The second is a negatively charged particle (fmp-) ingeniously choreographing an isometric, homogenous three-dimensional geometrical lattice, These fundamental negative particles immersed in the graviton plasma help to implement thermal transference (gravity) and restrain separation by avulsion of celestial objects throughout the local universe. This assemblage of particles immersed in these plasmas represents 100% of all matter in the local universe 1% seems more likely to represent the propagated macro matter occupying the greater universe.

How can we detect dark matter?

I believe the plausible region to detect and observe dark matter (fundamental particles) is in the haze surrounding black holes, here teeming between opposing forces, a repulsive negative (dark matter) and a critical mass (B.H.). Constrained by their (lattice and plasma) formations and having close to zero motion this rest mass has few options. Finding itselves condensed in more than a normal comfort zone, higher cocentration of baryionic and DM will influence higher thermal conditions and initiate a haze around the black hole (as stated in the 1st lwa of motion).

The haze should be brighter around mature black holes, as all thermal infohmation is confind locally in the lattice to its periphery. We may extrapolate that the enveloping dark matter density and unbalanced forces will determine (as stated by the 2nd law of thermodynamics) the thermal influence values around black holes.

Here we may encounter one more propblem --
1-- Mature black holes should be totaly invisible, isolated by a global moat of potential rest energy. Caused by a rip in the lattice.
2-- Thermal information (light) is torpid and can not be transmitted to earth through a "void, vacuum or PRE". To postulate, without dark matter as a transfer medium light can not be visible from the source.
These roadblocks may also be clues.

This phenomenon a lattice and plasma may construct sectors as independent areas bearing celestial objects as bubbles in the greater universe. (details Big Bang) Each resembling a small universe within a larger universe, when viewed from a perspective point may give an impression that these sectors of the greater universe are like air bubbles in a fish bowl full of water.

More on "Dark Matter" by Sam Sade --- http://ca.geocities.com/Samsade@rogers.com/