At each level the compression decreases through an area of space. As the inner radius of each level increases so do the width and the total area of the level. At each increasing level the area allowed for the decreasing compression of space increases. Suppose that the more compressed the points of space are as they reach a new value of compression, the harder it becomes to press them any further. Then in each level there would be a decreasing degree of difficulty in pressing them together as compression decreased in each level. This pattern, along with the increasing area at each increasing level and the displacement of space by electrons, could explain the pattern of arrangement of the electrons. In the first level two electrons can comfortably fit, pulled by the nucleus, in the high area of compression. Each electron displaces enough of the space to put a barrier between it and the next electron. The rest of the compression decreases without enough space to allow for more electrons. In the second level again two electrons can fit in the high area of compression. In the second level the area of the level increases and the decreasing compression is distributed over a larger area. The areas of lower compression are increased. Six more electrons can be fit into the level at the area of lower compression. Each displaces enough space to place a space barrier between it and the next electron, which feels a decreased pull from the nucleus. The space difference between the electron orbital shells would be a result of the displaced space and the compression percentage of the value.
Electron Arrangement
Yellow: nucleus
Black: electron
Blue: compression
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