What patterns can be observed in the electron affinity of chemical elements?

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The discussion focuses on the concept of electron overjumping during orbital filling, which leads to the formation of power areas within atoms characterized by an excess or deficiency of electrons. The theory proposes a new periodic table that reflects these overjumpings, highlighting secondary periodicity for s-elements and cyclicity for d-elements. It suggests that certain properties, such as electron affinity, exhibit non-periodic behavior, with s-elements showing varied trends compared to p and d-elements. The author invites comments and further exploration of these ideas through links to their published work. The exploration of these concepts aims to uncover underlying laws of electron behavior that remain unclear.
Oleg281
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During orbital’s filling with electrons, power areas form inside atom - with superfluous quantity of electrons and insufficient quantity. It causes overjumpings of electrons. My theory about such overjumpings see on www.genevo.org. I nead your comments
 
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To explain more understandable the overjumpings of electrons I publish my periodic table of overjumpings of electrons.

http://www.genevo.org/OD.gif
http://www.genevo.org/OF.gif
 
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In my last work I show secondary periodicity on this property for s-elements on the example of the data on electron affinity. In the same place, on the example of d-elements other logic of the tableis visible, - not periodicity but cyclicity.
Some properties are cyclic and not correspond to the periodic table.
I offer to your attention http://www.genevo.org/H.htm
It is visible on the schedule that on the property of electron affinity s-elements behave variously before p and d-elements . Before р - elements electron affinity grows, before d-falls.
Even on this property it is possible to speak about available laws which are not clear yet.

beginning http://www.genevo.org/E.htm
 
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