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T H E C R E A T I O N G-d the Creator is limitless in all aspects. What G-d has created, however, is limited. Time is a part of the human concept of limits and measurements of the Creation. In the very beginning or at some time in the very distant past, G-d created a physical spherical universe containing space without matter. The space was then at maximum condensation at the very center and as it distances itself from this center the condensation becomes proportionally less. The physical creation is not completely uniform, however, the laws governing this creation are as a rule uniform. The lack of uniformity in the physical creation is seen by the lack of uniformity in the distribution of galaxies in the universe, and the variations in size, shape and composition of these galaxies. The space fabric has pockets of space that vary in density, size, and composition. Space is held together by space-gravity force that takes the form of gravity with celestial bodies. The pockets of space that are of primary interest are the space pockets that are condensed and revolve about their axis at the speed of C, and their composition allow the creation of the basic elementary parts of the atom. They are the neutron space pocket, the proton space pocket, the electron space pocket, and the photon space pocket. They must be in close proximity of each other to allow the basic particles to mature and combine into atoms and molecules. They are in a condensed space region (galaxy black-hole) and cannot create particles at this point because the pull will not allow the basic particles to go into axis rotation. These rotating condensed particle space pockets do not attract each other to collide and destroy their particle creating abilities for the same reasons that the basic components of the atom do not collide into each other destroying the atom and the creation. The density of each particle space pocket is proportional to the density or mass of the basic particle it produces. Therefore, the order of space pocket density is, neutron, proton, electron, photon. After the galaxy black hole reaches critical mass and explodes, some of the basic particle space pockets distance themselves from the center of the black-hole to a distance where the force of attraction no longer impedes the creation of basic particles. The basic particle space pockets begin creating the basic particles with an axis rotation of C2. These space pockets are also condensed space and their center does not allow the creation of the basic particles because the pull at the center will not allow them to go into spin. The particles are created at the outer end of the space pocket. When the galaxy black-hole is in the contraction stage it also contracts the basic particle space pockets proportionally. When it is in the expansion stage the space pockets also expand proportionally as they distance themselves from the galaxy core. These basic particles attract to each other and combine, increasing its mass and proportionally slowing the spin of the heavier particle until it fully matures at an axis rotation speed of C. At this point they are massive enough to exit their space pockets wherein they were hatched and enter the outer space of the galaxy to combine with the other basic particles to form atoms, molecules, gasses, suns, planets, ect. The universe contracts into a super black- hole and when it reaches critical mass, explodes sending condensed space of galaxies away from its center core pull and allowing the creation of galaxies as described when they reached the required distance from the core of the universe. The photon condensed space pocket is so named because the dominant space property of that condensed space pocket produces basic photons as will be explained. This condensed space pocket is the energy property of space that does the work of expanding (thinning) and contracting (condensing) the space when combined with the proton condensed space pocket which gives the space the ability to expand or contract. The proton condensed space pockets dominant space property produces basic protons. The electron condensed space pockets dominant space property produces basic electrons. This is the force property of space that is responsible for the various forces of attraction of space and space gravity that keeps the universe together. The neutron condensed space pockets dominant space property produces basic neutrons. This condensed space pockets space property is the entity of space. The universe is contained in an outer shell (an outer crust or an outer skin) of condensed space that is more dense than the space within the shell. The outer shell is the cause of one of the contracting or condensing forces of the universe, because the space gravity force holds the shell together and resists expansion. The space with its core that is contained within the shell, is what does the expanding and helps in the contraction due to its space gravity force. The universe expands causing a thinning of the space farthest from the core, which is closest to the outer shell, and consequently, the shell itself expands proportionately and consequently thins. In one respect it also thickens as it attracts the expanding inner cores thinned outer space and condenses it forming a second layer with characteristics similar to the shell itself. As the space expands, the core of condensed space is diminished and its diameter decreases because the space of the outer core is slowly moving into the expanding universe. When space contracts the created matter will eventually separate into the four basic particles and will be attracted each to their own type of condensed space pocket. The division is proportional to its condensing. Matter cannot exist in condensed space. As space contracts the outer shell consequently contracts and thickens, but it loses its second layer to the inner core of the universe. The space-gravity force alone cannot keep the shape of the universe. The universe rotates about its axis at the speed of A.R.=C, (A.R.= axis rotation). This greatly strengthens the space-gravity force centripetally, and is a factor behind the spherical shape of the universe. Therefore, the forces of contraction of the universe are, the space gravity force of the space within the shell, and the space gravity force of the outer shell of the universe, and the centripetal force produced by the A.R.=C of the universe. As the space condenses it is resisted by the expansion forces of the space which emanates from the proton and photon condensed space pockets as explained. When condensation reaches critical mass it explodes and starts the expansion process that accelerates in speed. The expansion process loses energy as it is met with resistance by the contacting forces, and when it is no longer left with enough energy to expand it gives way to the contraction forces. As it continues to lose energy the contraction accelerates. By the rules of geometry, during the expansion period, as the outer core expands the shell becomes more massive than the downsized core, and all matter is attracted to the shell. Furthermore, the A.R. of the universe exerts a centrifugal force on the objects within the universe that moves them away from the core towards the shell. Consequently, the galaxies will continue to move outward towards the shell even in the beginning of the contraction stage of the universe until the critical point when they reverse direction. Furthermore, although when throwing a ball the father it travels the weaker the force becomes until it falls, therefore, the force of the expansion of the universe should become weaker at the outermost portion, added to this that space is less condensed in this expanded region, however, oppositely this region is farthest from the core of the universe thus the force of attraction to the center is weaker, and it is closer to the outer shell of the universe that is attracting it towards itself away from the core. This will eventually cause the galaxies to accelerate away from the core towards the outer shell, and further distancing these galaxies from each other. During the condensing cycle, by the time the core becomes as massive as the shell, all matter returns to space. Therefore, the forces that move galaxies towards the outer end of the universe are, the expansion force of the universe, the space gravity force of the outer shell of the universe, and the centrifugal force exerted on objects within the universe through the axis rotation of the universe. The solar system is subdivided into ten concentric spheres, which are the orbits of the nine planets with the sun in the center. The space properties of one sphere is symmetrical or proportional to the other but are somewhat different than the other. We are located in the fourth sphere from the center. The shell from within is studded with stars and huge galaxies, produced by the shell's condensed space. This phenomenon appears to us, from our distance, through our telescopes, as a curtain of light. Therefore, the universe is older than the distance in light years from this curtain because this curtain of light came into being at the start of the expansion period. The rate of expansion is <C, accelerating as the shell distances itself from the core until it reaches the critical point and then it begins contraction. Furthermore, since we are now in the contraction stage, we do not know the maximum distance which this outer shell has reached. We also do not know how many expansion and contraction stages our universe has gone through. As the photons, electrons, protons, and neutrons mix and form atoms and molecules, this basic mass becomes the core of a galaxy, and it attracts more particles until galaxies are formed. As the core mass contracts, the molecules break up, followed by the atoms, then followed by the subatomic particles, finally, following the rule of the conservation of space and matter, all matter reverts back to space and what is left of the galaxy is a black hole in space. This black hole is similar to the core of the universe and contains the four condensed space pockets with the galaxy rotation at the speed of A.R.=C causing a centripetal force on the black hole. Its functions are similar to the black hole core of the universe, however, the galaxy is not contained in an outer shell. The galaxies black hole continues to accelerate its contraction in opposition to the expansion force until it reaches critical space- mass and then it explodes and begins an accelerated expansion, forming a galaxy.
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