Course 5 on Compactification And Yakawa Couplings, Session Three, Part Two(2)

Compactification is a process. A process is a happening. A happening is an occurrence that involves energy. Energy is made up of vibrations. Vibrations, as said above, are mode up of waves. Decompactification is a process in the opposite direction of compactification. Thus, this process involves energy, yet in the opposite direction. Here, the waves move in the opposite direction of where the waves moved in compactification. Compactification is a collapse of structure. Decompactification is an expansion of structure. Compactification involves no necessary destruction to the structure in certain circumstances, nor does decompactification build upon a structure necessarily. In cases besides the ball, compactification may alter the general shape of the twists of certain overt structures, and this type of change in significant obvious contours and/or shapes from within the structure of a given shape may happen during decompactification. Heh? Here: Three letter "s" shapes here are three-dimensional. These are twisted upon themselves. These are elastic in terms of flexibility. As these are smushed, the curves bend-in to form the shape of a torqued figure-eight. As these are stretched, the curves straighten. These are respective examples. Materials that are rigid are more likely to maintain a general type of contour or shape. This is true of waves, too. Materials that are more elastic are more likely to lose their general type of contour or shape. This is true of waves, too. As waves move, there is always a certain degree of elasticity there. If that were not true, then the waves would become too brittle and shatter. Also, if something is too rigid, it can no longer move. Everything is motion, and everything is made up of waves. So, everything has some degree of elasticity to a certain extent. Elasticity is also adaptation. Environments involve many things. Many things in a reality involve immediate changes in surroundings. So, for stuff to move in an environment where there is immediate change, the object(s) or waves involved are everything. Flexibility is the condition of adaptation. A wave or a set of waves' ability to be flexible increases its ability to maintain. The maintenance or a structure decreases wear-and-tear. Less wear-and-tear means less applied entropy. Less entropy means less chaos. Less chaos means that a given structure will last longer. Elasticity may allow one to change a structure more in an individual structure, while yet causing relatively no damage to it, if any.