Codes and analog codes in chemistry

This paper discusses cyberinformation studies of the chemical elements composition in nature, in particular the identification of scientific terminology that could describe this phenomenon, ie, the study of biochemical information, as well as the relationship between the digital language of chemical elements and theoretical aspects of this elements and cybernetics. In digital pictures of biochemistry, physical and chemical parameters are in a strict submission to programmed, cyber and information rules. In some examples, chemical elements are connected through the discrete code 931, which is transformed into 3 2 3 1 3 0 code.


INTRODUCTION
The biochemical role of biochemistry depends on the positioning of its component chemical elements, and is understood by the "positioning of elements forming words". Each of these words has its biochemical base. If this base is expressed by corresponding discrete numbers, it can be seen that any given base has its own program, along with its own unique cybernetics and information characteristics.
Indeed, the sequencing of the biochemistry is determined not only by distin biochemical features, but also by cybernetic and information principles. For this reason, research in this field deals more with the quantitative rather than qualitative characteristcs of biochemical information and its biochemical basis. For the purposes of this paper, specific physical and chemical factors have been selected in order to express the chemical information for chemical elements. Numerical values are them assigned to these factors, enabling them to be measured. In this way it is possible to determine oif a connection really exists between the quantitative ratios in the process of transfer of biochemical information and the qualitative appearance of the biochemistry. To select these factors, preference is given to classical physical and chemical parameters, including the atomic numbers in the relevant chemical elements, their analog values, the position in periodic table, and their frenquencies. There is a arge numbers of these parameters, and each of their gives important biochemical information.
Going through these parameters, it becomes clear that there is a mathematical relationship between quantitative ratios and the qualitative appearance of the chemical elements and that there is a measurement method that can be used to describe the biochemistry of those elements..

RESULTS
The matrix mechanism of c hemistry, the evolution of groups and periods and, especially, the biochemical evolution of periodic table language, have been analyzed by the application of cybernetic methods, information theory and system theory, respectively. The primary structure of a periodic table is the exact specification of its atomic number composition and the chemical bonds connecting those numbers.

Notes:
Each atomic number has its own analogue form. That form is one of constants in the programmed, cyber and information systems in biochemistry.
The analogue code together with the code is yet another proof that the process of sequencing in the biomacromolecules is really conditioned and determined, not only by biochemical, but also cyber-information rules.
In this example the atomic numbers of the group of chemical elements in question are interconnected through the discrete code 3 2 3 1 3 0 . This connection is not visible one, so we do not know if it exists. This connection can be established using inner and outer atomic numbers and their analogue codes, which can clearly be observed in the previous example.

Comment:
Interpreting as: ListCorrelate[{8, 9, 15,  The blue shading is for the even, and green for odd atomic numbers of the group of chemical elements in question. In this example, chemical elements in even and odd columns are connected through their atomic numbers and analogue codes. The blue shading is for the elements out of diagonals, and green for the elements within the diagonals.
In this example the chemical elements within the diagonals and those out of diagonals are connected through the discrete code 931.
(128 + 821) + (110 + 011) = (139 + 931 ) As we can see, numbers on the right and the left side are coded in the number 931, and his analogue code.

CONNECTION OF CORRESPONDING NUMBERS
Some of the secrets of this square we can decode when we connect numbers with the first numbers of squares.   The mathematical balance in groups of chemical elements from X to Y on exsist with help codes 19 i 7. Output of these codes is code 931.
In those examples, we translated the physical and chemical parameters from the language of chemistry into the digital language of programmatic, cybernetic and information principles. This we did by using the adequate mathematical algorithms. By using chemicalinformation procedures, we calculated the numerical value for the information content of periodic table.
What we got this way is the digital picture of the phenomenon of chemistry. These digital pictures reveal to us a whole new dimension of this science. They reveal to us that the biochemical process is strictly conditioned and determined by programmatic, cybernetic and information principles.
The digital language of chemistry has a countless number of codes and analogue codes, as well as other information content. These pictures enable us to realize the very essence of functioning of biochemical processes. Here are some examples:

Code 931 in atoms
The micro structure of atoms are 9 parts. In first and second parts there are protons and neutrons. They are in central part of the atom. Threth, fourth, fiveth, sixth, seventh, eighth and nineth parts are out of central part of atoms. In this part there are the electrons. Arithmetical expression for this 9 parts is number 9.
The construction of atoms does 3 sequences: protons, elektrons and neutrons. Arithmetical expression for one atoms is -number 1.
Numbers: 9,3 and 1 we will connect in number 931: etc.
There are discrete codes that can show us one radical new dimension of the biochemical processes functioning. And in that dimension we can find an explanation for the given empirical reality.

CONCLUSIONS
Digital image of the chemistry is an image in which biochemistry is converted to mathematics. Actually, we convert it to numbers. As soon as we convert to numbers we'll get digital image of the chemistry. In that digital image, there is some very significant scientific information. Those are information in which is given explanation of that reality. That digital image of the chemistry will enable current science to significantly advance it's scientificresearch work and to develop top digital technologies in this science in a very short time.