If we were the size of the planet, we would feel the pull of the sun, while spinning around it. The spin is resultant from collisions between almost arbitrary celestial bodies (bound only by their level of energy) while growing in volume.
If we were the size of the sun, we would feel the pull of the center of the galaxy, and as well of the neighbour stars. Falling, down, in the verge of the galaxy.
The whole universe is falling into the void, the imense puller.
Believing that it is finite, is admiting that some day it will end.
The story does not end, the story is.
If we were the size of the sun, we would feel the pull of the center of the galaxy, and as well of the neighbour stars. Falling, down, in the verge of the galaxy.
The whole universe is falling into the void, the imense puller.
Believing that it is finite, is admiting that some day it will end.
The story does not end, the story is.
Reality's manifestation is often hidden from our very eyes, from prejudice of small predicaments that on the one hand gives us reassurement and confidence, but on the other builds a rather limited view of reality. Limited views are not less important than global views, but in order to realize some particular interesting properties, we do need to grasp the mistery of randomness, in a layered approach: starting from the transitive closure of all the elements (concepts, cognitions, facts, instances) and classify them into new elements (concepts, cognitions, facts, instances) by means of small bijective functions. The result is again classified to build new elements.
Our layered approach will only truly end in the powerset of relations classified from our initial set of elements. Therefore, there can be also relations between the first elements and the second elements, and also the first elements and the third elements, and so forth... and despite being multi-level (i.e., between elements generated multiple layers) they will still belong to the powerset, because a subset of a powerset can also by itself generate the subset's powerset.
At each layer, we can already learn from how reality manifests itself, with simple relations that might explain the very fenomena's existence. The statistical analysis can already give us a first model. However, after the first train, we will still need to take into account the relations between the first relations (i.e., how they do relate), compose them into new ones, and perform another statistical analysis on both the first elements and the second elements.
Finally, at the multi-layer perspective, the classification of just three element together with the classification of their classification, will form of a transfinite powerset.
When to stop?
Well, the interpretation of random fenomena will eventually fit a limited subset of classifying objects of this transfinite powerset. In the case of true randomness, the size of this subset with statistical(-ly observed) relevance will be necessarily increasingly higher.
Some references:
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