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5. Matter- the Unita
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Features of the UNITA |
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| We can now consider the physical features of the smallest physical building block of matter. From three groups of points of awareness in perpetual motion and anchor points, we see a range of features that emerge as constants to all spherical objects. | ||
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Unita Feature (1) | Unita is made up of 6 points of UCA changing position at half maximum rate |
| A Unita is made up of six points of UCA changing position according to geometric principles to create physical form. Each point of UCA travels at half its maximum rate. 6 is the most stable, most efficient number and structure for creating form. | ||
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Unita Feature (2) | Unita has a central point of UCA at its direct centre that never shifts from the centre |
| A Unita always has a point of UCA at its centre, that is the central anchor point to form. The central point of UCA never shifts from the geometric centre of the 6 points of UCA creating form's orbit pattern. | ||
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Unita Feature (3) | Unita has 26 additional anchor points that are technically part of the structure |
| A Unita has 26 additional anchor points (in additional to the central anchor point) 8 at middle level 8 at upper level 8 at lower level 1 at top 1 at bottom Anchor points are part of the structure of form and always remain at equal distances from the 6 points changing position to create form. | ||
| The maximum rate of change of position of anchor points is one half maximum rate of change of position. This guarantees that massive form can never be created and therefore dimension collapse. | ||
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Unita Feature (4) | Unita has an equator |
| Unita has an equator defined as the point at 90 degrees to the top anchor point and the centre and the position where the anchor points are at their widest. Only the minimum number of points are used to create anchors to form. 26 is the minimum, spaced at 1:8:8:8:1. | ||
| The widest distance between anchor points is at the equator. This region also corresponds to the closest orbit path for matter in orbit as opposed to in greater form. In other words, matter that is in orbit, when it is of the same spin will orbit around the equator, rather than orbits around at 45 degrees. Thus we see the pattern of orbit around a form's equator such as the solar system orbit and the creation of the "ring" factor of smaller, same spin configured matter. | ||
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Unita Feature (5) | Unita has an axis |
| Unita has an axis that it determined by drawing a straight line between the bottom most anchor point to the central anchor point and up to the top most anchor point. All matter that behave as spheres have an axis. An axis never changes in form. | ||
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Unita Feature (6) | Unita has two poles- North and South |
| Given the equator and the distribution of anchor points around the six points of form, a Unita has poles. Poles are the points that can be drawn from a straight line joining the centre anchor to the top most anchor points and the bottom most anchor point. | ||
| Poles are the theoretical regions closest to the northern most (top) anchor points given the line to the centre and position of the equator compared to the southern most (bottom) anchor. | ||
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Unita Feature (7) | Unita has spin for each pair of UCA points, either positive or negative |
| Each pair of two points of UCA that change position can change in either a left-right, or a right-left motion to create form. | ||
| Common sense tells us that either direction is sufficient to create form, therefore a Unita has a 50% chance of each pair of points having either a positive (left to right) spin or a negative (right to left) spin. This gives us eight possible types of Unita spin configuration | ||
| (1) + equator points and + + | (5) - equator points and - - | |
| (2) + equator points and + - | (6) - equator points and - + | |
| (3) + equator points and - + | (7) - equator points and + - | |
| (4) - equator point and + - | (8) + equator points and - - | |
| These different spin configurations create several forces of motion (as we will see and establish a fundamental feature of creating more complex form. | ||
| Unita feature (8) | Unita has rotation in form | |
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The change of position of the points of UCA in creating form create an overall rotation of form of matter. For instance, Unita with 3 positive (same spin) point teams will rotate on its axis at a stable point of 23 and a half degrees. | |
| Unita with 3 negative (same spin) point teams will rotate on its axis at a stable point of -23 and half degrees. We will see in later chapters why Earths are "perfect" creators. The place where life occurs. | ||
| Unita with any mixture will have an unstable rotation, which we call Rotaxis (rotation of the axis) and will be unable to form more complex shapes. The dominant spins will determine whether it is positive attracted or repulsed. | ||
| Unita feature (9) | Different combinations of spins create different rotations and therefore different types | |
| Relative to one form of Unita, there are two families of Unita (1) Creators (2) Repulsors | ||
| Creators and repulsors are essentially the same (perfectly same spin rates for all pairs). Within each family, this creates essentially three types of Unita: | ||
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| We will see the pattern of creators, repulsors and destructive attractors and their behaviour as repeating through every level of matter in the Universe. | ||
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Unita Feature (10) | Unita has volume |
| Unita occupies volume in dimension. | ||
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Unita Feature (11) | Fuzziness of surface area (form) of sphere |
| When six point of UCA come together and form relationships, they must by virtue of the "exclusiveness of position" law, change positions every so slightly. This creates a fuzziness, or a "wobble" or even a vibration as is sometimes described. In other words, form for a Unita is imperfect. | ||
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Unita Feature (12) | Awareness of UNITA being in form |
| As the Unita is made up of points of UCA which is pure awareness , then Unita, which is six, plus twenty seven points operating in harmony to create form in the form of 1:6:26 is aware of its form. Unita is therefore aware of its position, thus allowing more complex shapes to form and the relationships to continue. | ||
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Unita Feature (13) | Desire to continue to exist, expressed as creation (creating relationships) |
| By virtue of the UCA wishing to exist, points of matter share the same desire to exist expressed as creating relationships with other form. Every Unita wishes to be a "creator" and every Unita shares the same desire of "wanting" to create greater form via relationships. | ||
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Unita Feature (14) | Relative areas on Unitas that have greater form than others |
| As matter in its basic form spins either left right, or right to left, the surface rate of spin will be different for different parts of the fuzzy sphere. There will be one region of greatest spin called the equator and two points of minimum spin called the poles. These regions have greater attraction or repulsion.- on a sphere there are eight regions. | ||
| A practical example of this phenomena is right here on Earth when we look at consistent areas of most unstable weather that can be additionally identified and certified by the placing of an equilateral triangle over the region. Regions that immediately come to mind as historically having the highest disruption of electrical equipment and weather include the Bermuda Triangle, the Southern Ocean (near Antarctica) off the coast of Australia, off the tip of Sth America and Sth East of the Japanese Islands. These eight regions are the eight maximum bonding points of any structure to create. | ||
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Unita feature (15) | Relative mass |
| Mass is defined as the physical number of relative forms of matter that make up a larger form. Mass is always relative according to the level of form that the observer wishes to MEASURE against. There are principally four types of Mass: (1) CORE MASS defined as the physical number of relative forms in STABLE RELATIONSHIP that make up the core ORBIT around which less stable forms orbit. (2) INNER SHELL MASS defined as the physical number of relative forms of matter that ORBIT the core MASS (3) OUTER SHELL MASS defined as the physical number of relative forms of matter orbiting the lower orbits. (4) TOTAL MASS the total number of relative forms at a common denominator (i.e. lower level so all forms theoretically are the same type) that make up a total form, including all orbits. For a Unita the theoretical largest and smallest mass numerator is one, therefore one "unit". | ||
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Unita feature (16) | Relative density |
| Because six points of UCA (mass of UCA) create form and therefore volume, we can apply a formula to divide the number of points by the amount of volume they take up. The smaller the volume (the tighter packed) matter the higher its relative density to other forms of matter with the same number of pieces that make up its form but require greater volume. For a Unita, the theoretical largest density measurement is one, therefore one "unit", or in Latin "unita". The relative density for all Unita is the same. | ||
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