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A greater explanation on the concept of mass, density and volume |
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In Chapter 5, we explained the
fundamental objective of UCA in constructing the Unita was to achieve volume.
By devising a certain geometric shape using the minimum number of points of
UCA, UCA succeeded in meeting this goal and the goal of existence in form.
However, what of the interpretation of the goal law from the perspective of the
Unita? Does the Unita share the same volume goal as UCA? |
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| 6.19.1
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The unique perception of the Unita |
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As stated, each Unita has a unique
perspective in form, while at the same time following the same fundamental laws
as UCA, by virtue of being constructed of pure UCA in motion. This perspective
is from within the dream looking out. |
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From the unique perspective of Unita, the goal of
unique volume in unique position is already verified by its own existence. The
goal of the Unita within the dream, the reality and depth of experience of the
dream is not assured. A different goal than volume is required. |
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| 6.19.2 |
The Unita goal of depth of reality expressed as goal
for greater density |
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To increase the reality and depth of the unique
experience within the dream (Universe), a greater density of UCA is required
other than the single Unita. By virtue of the interaction of different shaped
Unita in motion, more complex form is assured. |
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Through the laws of attraction, Unita wish to come
together to create greater form in terms of the maximum possible number of
Unita in a given volume of space (density). |
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| This is why density = mass (number of structures) |
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volume (given volume of space)
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This is why the most dense structures are the most
attractive structures in the Universe (e.g. neuron Stars as will be explained in
Chapter 10 of this book). |
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| 6.19.3 |
The reduction in volume when objects come together in
superior structures |
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What is often missed in descriptions and
understandings of the volume and density of certain substances ( e.g. metals,
earth, rock etc) is that the greater the mass (number of particles), generally
the less the volume of space taken up by the substance, the greater the
density. |
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Things that are more dense, are necessarily smaller in
size. This explains why denser substances ( e.g. 1 cubic metre of Gold versus a
Sand) is much heavier. |
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| 6.19.4 |
Structure is a key in understanding optimum way objects
come together |
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The second point that is often missed in creating
greater form is that geometric structure plays a significant part in optimizing
mass and therefore density. In other words, how things are constructed, not
just their mass has a significant part to play in their size and strength. |
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3 Dimensional geometric strength due to superior
structure is unfortunately one of the least developed areas of contemporary
human knowledge, given much of the theoretical work done by science in the
fields of nuclear and atomic physics so far has focused on two dimensional
results and two dimensional diagrams. |
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The geometric shape of objects we now see impacts
their size as well as their strength. We call this measure of geometric
strength of objects the Steph (which will be discussed further, later in this
book) in honor of a most learned woman who contributed greatly to the
construction of this work. |
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| 6.19.5 |
Conservation of motion due to greater mass and
geometric strength |
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The third point that is rarely adequately defined is
that by creating greater form in some 3D geometric shape, the motion of Unita
is reduced but the strength of attraction and direction is increased. This
results in Unita in form having greater motion than individual Unita as
individual Unita ( such as Gravitons) have less efficient motion interaction (
fuzziness, or vibration). |
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Most importantly, the geometric shape ensures the
minimum required loss of motion to create form. Thus geometric strength once
again provides an indicator of the potential maximum motion in form of
particles. |
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| 6.19.6 |
The importance of these insights to the coming chapters |
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These insights will become increasingly important as
we seek to understand the nature and behaviour of more complex structures in
the following chapters. As you will see, they will help unlock a number of
previous mysteries surrounding the keys to complete atomic alchemy ( fusion
power, creating molecules and atomic structures cheaply and easily as
required). |
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Copyright © 2010 UCADIA. All rights reserved. |
