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Originally Posted by battybat Of course, if you add energy in the form of heat, for example, the vorticles become more active kinetically (well everything's 'kinetic' in KAMEO anyway) and tend to expand. If you remove energy, they will contract. I think this is consistent with reality.
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If we worm up the water (i.e. add the energy in the form of heat) it will turn into gaseous state and will strive up from the surface of the earth. If the water looses the energy in the form of heat, it condenses, i.e. takes solid (or liquid) form and strives to the surface of the earth.
In the first case the water experiences expansion, in the second - contraction. We can see clearly that the water in state of contraction is striving to the center of the earth, but in form of expansion from the center of the earth to opposite direction (To say metaphorically - to the sky, or rather to adjecent space of the earth).
Briefly we can say that the center of the earth is the “place” with favorable conditions for striving of
solid matter, but the sky – the “place” with favorable conditions for striving of
expanded matter.
So, we can name the center of the earth as
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Place of attraction of contraction;
But the sky as
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Place of attraction of expansion;
Can we conclude that?
- The moon as well has its own place of
attraction of contraction and this is the center of the moon;
- The moon has its own place of
attraction of expansion and probably this is a space adjacent to the moon;
- The difference between the earth and the moon from point of view of attraction is that they attract the
solid matter placed between them to opposite directions (to their own centers) and they push
expanded matter placed near their surfaces to opposite directions as well (from their own centers);
So, the likely difference between the space, which’s adjacent to the earth and the space, which’s adjacent to the moon is in directions:
I. The first begins from the center of the earth and spreads to all directions.
II. The second begins from the center of the moon and spreads to all directions as well.
In the area of contact of gravitational fields of the earth and the moon these adjacent spaces have opposite directions to each other;
But we can’t detect any apparent bounds, any difference between the spaces of the earth and of the moon, we believe that the space among all planets is homogenous and it has no directions, and the assertion about their opposite directions looks like nonsense.
My main question is:
- are expansion and contraction qualities of matter only or 3-D space experiences heterogeneity as well? I.e. does it have direction? Or does it expand when adding the energy to it in form of heat? Or does it contract when depriving the energy in form of heat? Does the space itself consist of vorticles? Or it’s only a “place” to which vorticles with high energy strive, and from which the vorticles with low energy strive? Or is space homogenous and indifferent to both these processes?