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The concept of vacuum and infinite perpetual motion |
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| In the past seventy years, contemporary scientific models have generally started with the opening assumption that the Universe will cease to exist at some point. It is one of the most popular cultural viewpoints of human philosophy and science that the Universe, like "life" itself, is mortal. In other words, the Universe was born, has lived and will begin to die and ultimate will cease to exist. | ||
| In fact so strong is this view held as a scientific "given", it forms the fundamental basis of the Laws of Thermodynamics (which we will discuss further on in this chapter). The major focus on debate is therefore more focused on the dual questions of when the Universe will end? and what will happen after this? | ||
| 6.8.1 | No conclusive proof that the Universe will ever end | |
| Regardless of the arguments placed on the "mortality" of the Universe, there remains no conclusive "proof" that the Universe will in fact cease to exist, rather than continue in a pattern of cycles of decay and re-birth. | ||
| However, via the model, we are able to answer the question once and for all- is the Universe eternal?, by looking at the question of perpetual motion in form. | ||
| 6.8.2 | The concept of vacuum and the assumption of perfect vacuum | |
| A fundamental basis for our understanding of the world we live in has been the measurement, classification and documentation of features and behaviour of matter. Much of this measurement has occurred by creating vacuum conditions and the assumption that perfect vacuum's are possible. | ||
| The word vacuum comes from the Latin word vacuus meaning "empty". It sounds reasonable and fairly easy to create a vacuum, given we use the word in our every day lives such as vacuum cleaner, vacuum flasks, vacuum packed meat etc. However the definition of a perfect vacuum is when no particles are present in a certain volume of space. | ||
| 6.8.3 | The concept of perpetual motion | |
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We now understand that the key process to creation and existence is that points of UCA in position, change position (motion) to create form. We now see that this change of position also causes anchor points to move position. We also now know that for form to continue to exist that points of UCA must continue to move- i.e. perpetual motion. | |
| We also understand from chapter 5 that relationship laws means that particles, no matter how small, affect each other's kinesis and temperature. We have seen that all points of UCA either form as anchors or creators of form- that the level of requiring existence shifts to the level of UNITAS. | ||
| Given that there is infinite Unita- that the Universe is essentially infinite Unitas, we can now see that a perfect vacuum is impossible. | ||
| 6.8.4 | Perfect Vacuum's do not exist | |
| If only one Unita existed, it could not have position (there needs to be at least six Unita for one Unita to have relative position). Dimension would collapse and the Universe and UCA would cease to exist. | ||
| But because there are always other UNITA above or below a Unita, either in more complex form or not, there is always motion in form, therefore there can never be a perfect vacuum. Perfect vacuum's do not exist. |  |
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| From these features, the motion in form for the infinite number of Unitas can never = 0. The walls of a glass cylinder affect the relative spin and temperature of particles inside the glass cylinder affecting them whether or not there are a great number of particles or not. | ||
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| If there can be no breakdown of the fundamental form of Unitas, then the Universe shall always exist and never die. | ||
| We may see it change in cycles, the growth of new stars, the death of old stars, the creation of great creative attractors and the creation of great destructive attractors such as Black Holes , neutron stars ( we will discuss in further detail in later chapters). | ||
| But the Universe will never cease to exist. There is one dream, there is one Universe, there is one UCA. The motion in form of a Unitas can never =0 Therefore, the time arrow from the Unita and above will always point forwards. | ||
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