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281Oleg
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Tools of construction of system of elements.
Tools of construction of system of elements.
www.genevo.org/B.htm[/URL]
An old model of atom does not answer many questions about properties. And... I decided to offer you a new one. It is called "ball-bearing model of atom". It is very flexible and it can be twisted!
[PLAIN]www.genevo.org/F.htm[/URL]
It is logical, that shown cyclicity for d-elements is shown also in other families.
[PLAIN]www.genevo.org/Z1.htm[/URL]
I have tried to simplify last model maximum.
Secondary periodicity see at figure (the schedule of the data).
[PLAIN]www.genevo.org/S.htm[/URL]
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 [PLAIN]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.
Specific properties are inherent in each family of chemical elements.
When constructing the table of periodic specific properties of one element’s family, other families has this property partly (comparably) periodical or as an absent one (is not shown). A parity of families with expressed properties or partly expressed properties or not expressed properties is natural.
Specific properties of element’s families determine the form of the table. All tables are naturally connected.
The continuation of the table of overjumpings of electrons http://www.genevo.org/OD.gif - the table of electrochemical series (fragment). http://www.genevo.org/E.htm
In this periodic table an electrochemical series of potentials of 3d-elements and 5d-elements is very similar. It is shown on the graph. http://www.genevo.org/Ef2.gif And a series of electrochemical potentials of 4d-elements is differing from series of potentials of 3d-elements and 5d-elements. If to turn this series and increase on-1 you see that areas of maxima and minima of this series will coincide with the areas of maxima and minima of electrochemical series of potentials of 3d-elements and 5d-elements. Graph http://www.genevo.org/Ef2.gif
Tools of construction of system of elements.
www.genevo.org/B.htm[/URL]
An old model of atom does not answer many questions about properties. And... I decided to offer you a new one. It is called "ball-bearing model of atom". It is very flexible and it can be twisted!
[PLAIN]www.genevo.org/F.htm[/URL]
It is logical, that shown cyclicity for d-elements is shown also in other families.
[PLAIN]www.genevo.org/Z1.htm[/URL]
I have tried to simplify last model maximum.
Secondary periodicity see at figure (the schedule of the data).
[PLAIN]www.genevo.org/S.htm[/URL]
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 [PLAIN]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.
Specific properties are inherent in each family of chemical elements.
When constructing the table of periodic specific properties of one element’s family, other families has this property partly (comparably) periodical or as an absent one (is not shown). A parity of families with expressed properties or partly expressed properties or not expressed properties is natural.
Specific properties of element’s families determine the form of the table. All tables are naturally connected.
The continuation of the table of overjumpings of electrons http://www.genevo.org/OD.gif - the table of electrochemical series (fragment). http://www.genevo.org/E.htm
In this periodic table an electrochemical series of potentials of 3d-elements and 5d-elements is very similar. It is shown on the graph. http://www.genevo.org/Ef2.gif And a series of electrochemical potentials of 4d-elements is differing from series of potentials of 3d-elements and 5d-elements. If to turn this series and increase on-1 you see that areas of maxima and minima of this series will coincide with the areas of maxima and minima of electrochemical series of potentials of 3d-elements and 5d-elements. Graph http://www.genevo.org/Ef2.gif
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