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[Hasanuddin]

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As the stream of positron MPP flow into inersteller space, they will continue to drive electrons along with them. Gravitational repultion would continue to accelerate the MPP, which in turn will accelerate the electrons. Because both the MPP and electrons will be traveling at similar relative speeds, conditions maintaining immiscibility would be expected to hold between these two types of particle packets.

The electrons would be accelerated by the MPP in two different ways.

Push from behind: Because of immiscibility, MPP can be considered discrete objects compared to the space occupied by electrons. The MPP would feel gravitational repulsion at first mainly from the star of origin, but that dominance would slowly be replaced by net gravitational repulsion from the overall galactic cluster; only to be later (a very long time later) replaced by dominance of gravitational attraction from the nearest like-type (antimatter) galaxy to which the MPP are heading. Therefore, the acceleration of the MPP will be “continuous” (given known conditions.) In a very similar manner the energies of the electrons being driven will also be increased, especially within the galactic cluster itself.

Pull from ahead: Although it was established that gravitational stability is a primary driver of a system in chaos, it was also established that once a system becomes gravitationally sorted, other forces with assert more dominant roles. Expected interaction between positively charged MPP and negatively charged driven electrons would be such an example. MPP are being accelerated out of a galaxy to achieve higher gravitational stablility. However, the charge differential between positrons and electrons will act to link the two. Therefore, the accelerated positrons will also drag trailing electrons thereby accelerating them to similar speed achieved by the positrons.

Near to the galactic center, this dynamics would be expected to accelerate out of a star’s bubbling matrix, launched into near space, pushed ever further by successions of MPP, pushed past the Sun’s influence and beyond. Could this process go on forever? The answer to that question is clearly no for many reasons. First and foremost, because of basic immiscibilty laws the MPP will be permitte to enter the neighboring galaxy, but the matter of the solar wind would never be allowed in.

Therefore, at some point the electrons would be halted and the positrons would flow on. In the other direction “anti-solar-wind,” it might be called, is being produced and is coming at us. From the anti-solar-wind the electrons will separate out and enter our galaxy’s dominium, while positrons for the anti-solar-wind would stay in the adjacent antimatter galaxy.

The net out come of the cumulative effects of both processes is a net separation of charge. Our galaxy is continuously loses (+) particles while retaining (-), at the same time we are gaining (-) from antimatter abutting dominia. Therefore as time goes on, the Universe is moving from a from an initial stable-state where charge was distributed evenly throughout the Universe, to a state were charge is becoming increasingly localized. This gradual, but continuous, process would be expected to move the system from the initial stable state through various forms of instability, to eventual collapse. This process would be analogous to the stages of development of a star as the process of fusion/antifusion change its gravitational dynamics slowly by changing its density. Potentially, this process can lead to system collapse to a black-hole. The relationship between these two systems is not just analogy, but an equivalency. Solar collapse is the gravitational equivalent for the predictor of the future electrical imbalances an increasing tensions across the entire matrix, leading to ultimate collapse, i.e., the next Big Bang.