MATRIX CODE IN THE NATURE
Introduction
DESCRIPTION: The subjects of our research are
program lawfulness, cybernetic lawfulness, and informational lawfulness in
molecule sequence in the nature. In the science, one question has been
present for a long time, that is, if there is one unique common connection
that links all phenomena in the cosmos. The doubt
is, if the periodicity in
the biochemical process is only a physical-chemical matter of objective
material relationship or maybe a matter of numbers and mathematics. With
the goal to find the answers on some of those questions, we have made a
decision to do a research on, if in the nature exists such one unique
mathematical array and one mathematical lawfulness which could be valid
for all phenomena in all natural sciences. That is why we did the
following: phenomenon's from those sciences were designated with specific
numeric validity, such as: number of atoms in those sequences, number of
molecules, number of atom elements, atomic numbers, etc. We have tried to
discover mathematical lawfulness in sequences of mentioned phenomenon's, and
we were successful in doing that. We have discovered that sequences of all
molecules in nature conducted, not just according to their bio-chemical
characteristics, but especially according to the program lawfulness,
cybernetic lawfulness, and informational lawfulness. In the formula of
creation of our material world we have these things continuous: lawfulness
of numbers, analog code, relation: even-odd, correlation of corresponding
and complementary sequences, symmetry sequence and many others. Those are
only “letters” of mathematical language of nature. Those letters
according to our opinion are discovering one radical new vision of cosmos.
There is not one particle in the cosmos, and not even anything smaller or
bigger than that, but has to undergo such mathematical lawfulness in the
nature. Special attention in our research was focus on program lawfulness
in genetic process, so we used new discovered mathematical lawfulness, and
we made a new table of genetic matrix code.
CONCLUSION:
Making a sequence of all phenomenon's in nature is conducted according to the
exact mathematical laws (for such descriptions we can use theory of
systems and cybernetics.)
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FORMULA FOR CODE
AND DECODE OF THE PHENOMENON'S
IN
THE NATURE
The answer was: He would create it in perfect manner,
with proportion, purpose and wisdom. How the formula for mathematical
language of nature would look like? We have made a mathematical algorithm and
gave the task to a computer to find an arithmetical expression for code
and decode of sequencing phenomenon's in Cosmos in the group of natural
numbers from x to y. Here is the algorithm:
Algorithm:
INPUT = Natural numbers in-group of numbers from X to Y
OUTPUT = Arithmetical expression for code and decode of
sequencing of phenomenon's
Expression for output is following:
Formula for code and decode of phenomenon's in Nature
{[(SA(R1,2,3,n)-(SB(R1,2,3,n))]+(A
x B)} = X;
X = (Sy1 + Sy2 + Sy3 + Sy4);
C = ( Y1 + Y2 + Y3 + Y4);
A & B=Constants for sequencing of molecules in
Nature,
S=Groups of numbers in arithmetic expressions 1,2,3,n,
R(1,2,3,n)=Arithmetical expression for the phenomenon's
1,2,3,n,
X=Arithmetical expression for the code and decode of the
phenomenon's in Cosmos
Solution to this formula is: A=7; B=19; X = 931;
Y1 = 1; Y2 = 23; Y3 = 23; Y4 = 27;
(Y1 + Y2 + Y3 + Y4) = 74;
(Sy1 +
Sy2 + Sy3 + Sy4 ) = 931;
Sy1 = 1;
Sy2 = (1 + 2 + 3 +……………23) = 276;
Sy3 = Sy2;
Sy4 = (1 + 2 + 3 +……………+ 27) = 378;
(1 + 276 + 276 + 378) = 931;
Consequently the most possible
combination for sequencing of phenomenon's in Cosmos is the one in which
input factors are 19 and 7, and number 931-output
result.
Example 1.
Arithmetical expression for nucleotides in genes is
number 31, but for amino acids it is 382: As we can see nucleotides and
amino acids are sequenced with numbers 19, 7 and 931.
R1=31; R2=382;
{(7 x 19)+[(S7(31)x 19)-(S19(31)x7)]}=
={(7 x 19)+[(S7(382) x 19 )-(S19(382)x7)]}
S7(31)=(25+26+27+28+29+30+31)=196;S19(31)=
=(13+14+15+16+....+.31)=418; S7(382)=2653;
S19(382)=7087;
{(7x19)+[(196x19)-(418x7)]} =
={(7x19)+[(2653x19)-(7087x7)]};
931=931
----------------
Example 2
Atomic number of Gold (Au) = 79;
{[(S7(79)x19)-(S19(79)x7)]+(7x19)}= 931;
--------------------------------------
Atomic number of Platinum (Pt)=78;
{[(S7(78) x 19) - (S19(78) x 7)] + (7 x 19)} = 931;
------------------------------
Phenomenon x = Arithmetical expression=Y;
{[(S7(y)x19)-(S19(y)x7)]+(7x19)} = 931;
---------------------------------------------
Atomic number of the chemical element X = N;
{[(S7(N)x19 )-( S19(N) x 7)] + (7x19)}= 931;
----------------------------------------------
Etc.
These are barely some of the examples for sequencing of
phenomenaon's with numbers: 19, 7 and 931 that we have discovered in basic
code in the Nature itself. Similar relationships exist for all other
phenomenon's. Whatever has been created in this world has been created in
that way, namely with numbers 19, 7 and 931.
Constants in previously quoted formula are numbers 19,
7 and 931. Numbers: 19 and 7 are in fact input factors in that formula,
and number 931 are the output. In fact sequencing of phenomenon's in Cosmos
is in the last resort reduced to creation of those phenomenon's with number
931. Architecture of the whole Universe has been build from
"bricks" imprinted with: 931, 931, 931...! Whichever phenomenon
we are looking at, we will always see it sequenced with number 931.
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Nuclear physic
E
= mc2
2p+2n=a+931x0,03023p+3n=a+931x0,04534p+4n=
=a+931x0,06045p+5n=a+931x0,0755
6p + 6n = a + 931 x 0,0906
------------------------
((2p + 2n) - a): 0,0302 = 931;
----------------------------------------
Relative
atomic mass
-----------------------
ArH =(mH:u)=(0,1674x10 -23g:0,1660x10-23)=1,0075;
Decoding
of number 1,0075
1,0075 = 10075;
100075 = (74 + 139 + 931
) + 8931);
------------------------------------------
Nuclear
processes
Ra = (He + Rn); Atomic number = ( 2 + 86);
Decoding
scheme = 2 and 86 =286;
Ra226 = 226;
Rn 222 = 222;
Šifre 19 and 7 = 197;
……………………………………….
Output = (286 + 226 + 222 + 197 ) =
931;
...................................................
Electrons
mass
------------------
me........9,109 x 10 – 28 g
Decoding of number 9,109
--------------------------------
9,109 = 9109;
9109=(931+931+931+931+(197+139||931+197)+931+931+931+931);
……………………………………
Molecule
H2O
HOH Þ atomic numbers Þ
1, 08, 01;
1,08,01 Þ decoding scheme Þ
10801;
10801 = [ (74+139 +931)+(74
+ 139 + 931) + (74 + 139 +931)
+ (74 + 139 +931) + (74 + +139 + 931)
+ (74 + 139 + 931) + (74 + 139 + 931)
+ (931 +931 + 931)]
;
………………………………………
Solar System
------------
Solar system has, as we know, 9
planes. Third in order is our planet Earth. There is life only on this
planet in that system, on the planet Earth. Those phenomenon's are created in
the sign of numbers 9, 3 and 1.
(9, 3 and 1) = 931;
-------------------------
Avogadro's
number
Avogadro's number = 6,02214 x 1023
Connection:
6,02214 = 602214;
602214 = [ (197 + 931) + (197
+931) + (931 x Y)
+ (931 + 197) +( 931 + 197)] ;
Y = 646;
………………………
ELECTRONS
H O H Þ 1, 2, 6 i 1 Þ
connection Þ 1261;
1261 = [ ( 931
+ ( 197 + 19x7)] ;
……………………………………………………
The
speed of light
------------------
299.792,458 Þ Connection =
299792458;
299792458 = (197 + ( 74 + 139 + 931
) x Y ) + 197 );
Y = 262056;-
-----------------------------------------
Etc.
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THE UNIVERSALITY
OF THE CODE 931
Formula for
universality of the Code 931:
( Sxa + Sxb ) = 931;
Examples:
Nuclear
rows
U = 92; Ra = 88; Rn = 86 Po = 84; and Pb = 82;
S1 = ( U + Ra) = ( 92 + 88 ) = 180;
S2 = (U + Ra + Rn) = ( 92+88+86) = 266;
S3=(U+Ra+Rn+Po)= (92+88+86+84)= 350;
S4=( U+Ra+Rn+Po+Pb)= (92+88+86+84+82) = 432;
( Sxa + Sxb ) = 931;
--------------------------
Example 1
S4
= 432; Analog code of number 432 = 234;
234││432
(S1+S2+S3)=697; Analog code of number 796 = 697;
796││697
(Analog code of number 432+Analog code of number 697)=
= 931;
-----------------------
Example 2
S3
= 350;
053││350
(S1
+ S2
+ S4)
= ( 180 + 266 + 432) = 878;
878││878
(Analog code of number 350+Analog code of number 878)=
= 931;
(053 + 878) =
931;
Example 3
S2
= 266;
662││266
(S1
+ S3
+ S4)
= (180 + 350 + 432) = 962;
269││962
(Analog code of number 266+Analog code of number 962)=
= 931
(662 + 269) =
931;
Example 4
(S1
+ S2)
= ( 180 + 266 ) = 446;
644││446
(S3
+ S4)
= ( 350 + 432) = 782;
287││782
(Analog code of number 446+Analog code of number 782)=
= 931;
(644 + 287) =
931;
---------------------------
etc.
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The
periodic system table (Fragment 1)
Example 1
Groups of elements:
G1 = (Sc, Y, La, Ac, Ti, Zr, Hf, Pu, V, Nb,Ta, Db )=
=Atomic numbers =(21,39,57,89,22,40,72,94,23,41, 73, 105)=
= 676;Analog code = 676;
G2 =(B,Al,Ga,In,Tl,C Si,Ge,Sn,Pb,N,P,As,Sb,Bi) = Atomic numbers =
=(5,13,31,49,81,6,14,32,50,82,7,15,33,51,83 )= 552 ;
Analog code = 255;
(G1+G2) =(676 +
255) = 931;
---------------------------
Example 2
Groups of elements:
G3=(Sc,Y La,Ac,Ti,Zr,Hf,Pu,Ge,Sn,Pb,N,P,As,Sb,Bi ) = Atomic numbers =
(21,39,57, 89, 22, 40, 72, 94, 32, 50, 82, 7, 15, 33, 51, 83 )= 787;
Analog code = 787;
G4 = (V,Nb,Ta, Db, B, Al, Ga, In, Tl, C, Si,) = Atomic numbers =
(23,41, 73,105,5,13,31,49,81,6,14) = 441;
Analog code =144;
( G3+G4 ) =(787
+ 144 ) =
931;
-------------------------------
Example 3
Groups of elements:
G5 = (Sc, Y, La, Ac, N, P, As, Sb, Bi) = Atomic numbers =
=(21, 39, 57, 89, 7, 15, 33, 51, 83 ) = 395;
Analog code =593 ;
G6 = (Ti,Zr,Hf,Pu,V,Nb,Ta,Db,B, Al,Ga,In,Tl,C,Si,Ge,Sn,Pb )=
=Atomic numbers = (22, 40, 72, 94, 23, 41, 73, 105, 5, 13,
31, 49, 81, 6, 14, 32, 50, 82) = 833;
Analog code =338;
( G5+G6 ) =( 593
+338 ) =
931;
-------------------------------
Example 4
Groups of elements:
G7 = (V, Nb, Ta, Db, N, P, As, Sb, Bi) = Atomic numbers =
=(23, 41, 73, 105, 7, 15, 33, 51, 83 ) = 431 ;
Analog code =134 ;
G8 = (Sc, Y, La, Ac, Ti, Zr, Hf, Pu, B, Al, Ga, In, Tl,
C, Si, Ge, Sn, Pb) = Atomic numbers = (21, 39, 57, 89,
22,40,72,94,5,13,31, 49, 81, 6, 14, 32, 50, 82) = 797 ;
Analog code =797;
( G7+G8 ) =(
134+797 ) = 931;
-------------------------------
etc.
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THE PERIODIC
SYSTEM TABLE (Fragment 2)
We can observe our material Cosmos as one
perfect and harmonius system. That system is constituted from sequences
which give number 931 in their correlation. So, our existence is given in
the sign of that number. It is given in the sign of number 931. There are
some examples:
Example 1
A1=(N,Cl,Ge,As,Se,Sn,Sb,Te)=Atomic number =(7,17,32,33,34,
50,51,52)= 276; Analog code = 672;
-------------------------------------------
A2 =( C, O, F, Si, P, S, Br, J, Pb, Bi, Po, At, Elements:114, 115, 116,
117);
Atomic number=(6,8,9,14,15,16,35,53,82,83,
84,85,114,115,116,117) = 952;
Analog code = 259;
(Analog code A1 + Analog code
A2)= (672 + 259) = 931;
-----------------------------------------------------
Example 2
A3 = (C, N, O, F, Si, P, S, Cl, Ge, As, Se, Br,
Sn, Sb, Te, J)=(6,7,8,9,14,15,16,17,32,33,34,35,
50,51,52,53 )= 432;
Analog code =234;
-----------------------------------------------------
A4 =(Pb,Bi,Po,At,114,115,116,117)=
=(82,83,84,85,114,115,116,117) =796;
Analog code = 697;
(Analog code A3+Analog code
A4)=(234 + 697) =931;
--------------------------------------------------
Example 3
A5= ( C, N, Cl, Ge, As, Br, Sn, Sb, Te ) =
=(6,7,17,32,33,35,50,51,52) = 283; Analog code = 382;
A6 = (O,F,Si,P,S,Se,J,Pb,Bi,Po,At,114,115,116,117)=
=(8,9,14,15,16,34,53,82,83,84,85,114,115,116,117 )=
945; Analog code = 549;
(Analog code A5 + Analog code
A6) = (382 + 549) = 931;
------------------------------------------------------
Example 4
A7 = (C, O, Si, S, Ge, Se, Sn, Te, Ob, Po,) =
(6, 8, 14, 16, 32, 34, 50, 52, 82, 84) = 378;
Analog code = 873;
A8 = (N, F, P, Cl, As, Br, Sb, J, Bi, At ) =
(7,9,15,17,33,35,51,53,83,85,114,115,116,117 ) = 850;
Analog code = 058;
(Analog code A7 + Analog code
A8) = (873 + 058) = 931;
-------------------------------------------------------
etc.
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Decoding
of periodical system Tables |
We can see lawfulness of coding from the matrix code in the nature
in the Table of chemical element system. All chemical elements
from those Tables are interconnected with multiple code connections. The
most important code connections are between chemical elements, then code
connections between chemical elements and periods, between chemical
elements and group of chemical elements, and so on. Input elements of such
coding are: codes 19 and 7, relation: Even - Odd, analogue code, groups of
numbers, Etc. Output are codes: 197, 1907, 139 and 931.
One of the input is number 74, because this number as its own output gives
code 931.
THE
PAIRS OF PERIODS
---------------------
The pairs of periods are: II and III, IV and V, VI and
VII.
Number of electrons
II period
Li = 2,1, Be = 2,2; B = 2,3; C = 2,4; N = 2,5; O = 2,6;
F = 2,7;
Ne = 2,8;
Decoding scheme:
2,1 = 21; 2,2 = 22; 2,3 = 23; 2,4 = 24; 2,5 = 25; 2,6 =
26;
2,7 = 27; 2,8 = 28;
III period
Decoding scheme:
2,8,1 = 281; 2,8,2 = 282; Etc.
IV period
Decoding scheme:
2,8,8,1 = 2881; 2,8,8,2 = 2882; Etc.
V period
Decoding scheme:
2,8,18,8,1 = 281881; 2,8,18,8,2 = 281882; Etc.
VI period
Decoding scheme:
2,8,18,18,8,1 = 28181881; 2,8,18,18,8,2 = 28181882; Etc.
VII period
Decoding scheme:
2,8,18,32, 18,8,1 = 2818321881; 2,8,18,32, 18,8,2 =
2818321882; Etc.
------------------------------------------------
Decoding of electrons:
( 21 + 22 + 23 + 24 + 25 + 26 + 27 + 28 + 281 + 282 +
283 + .............+28183232188 ) = 500774999578;
500774999578 = (
197 + 197 + 197 +.............. + 197 );
---------------------------------------------
NUMBER OF
ELECTRONS IN THE PERIODS
(Fragment 4)
-----------------------------------
H = 1; He = 2; Li = 2,1; Be = 2,2; B = 2,3; C = 2,4; N =
2,5; O = 2,6;
F = 2,7;
Ne = 2,8; Na = 2,8,1; Mg = 2,8,2; Al = 2,8,3; Si =
2,8,.4; P = 2,8,5;
S = 2,8,6;
Cl = 2,8,7; Ar = 2,8,8; K = 2,8,8,1; Ca = 2,8,8,2; Ga=
2,8,18,3; Ge = 2,8,18,4;
As = 2,8,18,5; Se = 2,8,18,6; Br = 2,8,18,7; Kr =
2,8,18,8;
----------------------------------------
Decoding of electrons:
(1+2+21+22+23+24+25+26+27+28+281+282+283+284 +
+ 285+286+287+288+2881+2882+28183+28184+28185 +
+28186+ 28187+28188 ) =177351;
177351 = ( 1907
+ 1907 + 1907 +...................+ 1907 );
--------------------------------------------
NUMBER OF
ELECTRONS IN THE PERIODS
(Fragment 4,0,0,0)
-----------------------------------
H = 1,0,0,0; He = 2,0,0,0; Li = 2,1,0,0; Be =
2,2,0,0;
B = 2,3,0,0;
C = 2,4,0,0; N = 2,5,0,0; O = 2,6,0,0; F = 2,7,0,0;
Ne = 2,8,0,0; Na = 2,8,1,0; Mg = 2,8,2,0; Al = 2,8,3,0;
Si = 2,8,.4,0; P = 2,8,5,0;
S = 2,8,6,0; Cl = 2,8,7,0; Ar = 2,8,8,0; K = 2,8,8,1;
Ca = 2,8,8,2;
Ga= 2,8,18,3; Ge = 2,8,18,4; As = 2,8,18,5; Se =
2,8,18,6;
Br = 2,8,18,7; Kr = 2,8,18,8;
----------------------------------------
Decoding of electrons:
(1000+2000+2100+2200+2300+2400+2500+2600+2700+2800 +
+ 2810+2820+2830+2840+2850+2860+2870+2880+2881 +
+2882+28183+28184+28185+28186+28187+28188 ) =220236;
220236 = (
931
+ ( 1907 + 1907 + 1907 + 1907+........+ 1907);
…………………………………
NUMBER OF
ELECTRONS IN THE PERIODS
(Fragment 4,00,00,00)
-----------------------------------
H = 1,00,00,00; He = 2,00,00,00; Li = 2,01,00,00;
Be = 2,02,00,00;
B = 2,03,00,00; C = 2,04,00,00; N = 2,05,00,00;
O = 2,06,00,00;
F = 2,07,00,00; Ne = 2,08,00,00; Na = 2,08,01,00;
Mg = 2,08,02,00;
Al = 2,08,03,00; Si = 2,08,04,00; P = 2,08,05,00;
S = 2,08,06,00;
Cl = 2,08,07,00; Ar = 2,08,08,00; K = 2,08,08,01;
Ca = 2,08,08,02;
Ga= 2,08,18,03; Ge = 2,08,18,04; As = 2,08,18,05;
Se = 2,08,18,06;
Br = 2,08,18,07; Kr = 2,08,18,08;
----------------------------------
Decoding of electrons:
(1 000000+ 2000000 + 2010000 + 2020000 + 2030000 +
+2040000 + 2050000 + +2060000 + 2070000 + 2080000 +
+2080100 + 2080200 +
2080300 + 2080400 + +2080500 +
+ 2080600 + 2080700 + 2080800 + 2080801 +
2080802 +
+ 2081803 + +2081804 + 2081805 + 2081806 + 2081807 +
+2081808 )
=52656036;
52656036 =[
(19x7)+(139+931+139+931+139+931 +……
+139 + 931) + (7x19) ]
;
52656036 = [ ( (19x7) + (139
+ 931) x Y) + (7x19)] ;
Y = 49211;
-----------------------------------------
Atomic
numbers of the chemical elements:
Period 1 = 3; = A1;
Period 2 = 52; = A2;
Period 3 = 116; = A3;
Period 4 = 495; = A4;
Period 5 = 819; = A5;
Period 6 =2256; = A6;
Period 7 =3280; = A7;
-----------------------
S1
= A1; = 3;
S 2 = (A1 + A2); = 55;
S 3 = (A1 + A2 + A3) =
171;
S 4 = (A1 + A2 + A3 +
A4) = 666;
S 5 = (A1 + A2 + A3 +
A4 + A5) = 1485;
S 6 = (A1 + A2 + A3 +
A4 + A5 + A6) = 3741;
S 7 = (A1 + A2 + A3 +
A4 + A5 + A6 + A7) = 7021;
---------------------------------------------
( S1
+ S2
+ S3
+ S4
+ S5
+ S6
+ S7)
= SS1;
SS1=(3+55+171+666+1485+3741+7021) = 13142;
13142 =[
931+(197+931+197+931+197 + 931 + 197 + 931 + 197 +
+931+197+931+197+931+197+931+197+931+197+931)
+ 931 ] ;
---------------
From the previous examples we can see clearly that
chemical elements in the Tables of periodical system are really coded with
codes from the Matrix code in the nature. In those codes
it is "written"
how many atoms elements will have, in which period and group will be
arranged, and what kind of biochemical characteristics will have, and so
on. This is one more proof that sequences of phenomenon's in our material
world is executed according to the exact program, cybernetic, and
informational system, as well as lawfulness of each system.
Pairs of
chemical elements
---------------------------
In the theoretical concept of periodical system we can
put in
pairs following chemical elements:
Groups A1 and A7
--------------------------
Li and F, Na and Cl, K and Br, Rb and J, Cs and At, Fr
and element 117;
Groups A2 and A6
-------------------
Be and O, Mg and S, Ca and Se, Sr and Te, Ba and Po, Ra
and element 116.
Code markings:
------------
Groups A1 and A7
----------------
Atomic numbers:
(3 + 9) = 12; Analogue code = 21;
(11 + 17) = 28; Analogue code = 82;
(19 + 35) = 54; Analogue code = 45;
(37 + 53) = 90; Analogue code = 09;
(55 + 85) = 140; Analogue code = 041;
(87 + 117) = 204; Analogue code = 402;
------------------------
Code A1 and A7
--------------------------
C A1,A7 = ( 12 + 28 + 54 + 90 + 140 + 204 ) = 528;
Analogue code A1 and A7
------------------------------
AC A1,A7 = ( 21 + 82 + 45 + 09 + 041 + 402 ) = 600;
( CA1,A7 + AC A1A7) = ( 528 + 600 ) = 1128;
1128 = ( 197 + 931)
;
As we can see these groups of elements are coded with
codes 197 and 931.
Groups A2 and A6
-------------------------
Atomic numbers:
( 4 + 8 ) = 12; Analogue code = 21;
( 12 + 16 ) = 28; Analogue code = 82;
( 20 + 34 ) = 54; Analogue code = 45;
( 38 + 52 ) = 90; Analogue code = 09;
( 56 + 84 ) = 140; Analogue code = 041;
( 88 + 116 ) = 204; Analogue code = 402;
------------------------
Code A2 and A6
--------------------------
C A2,A6 = ( 12 + 28 + 54 + 90 + 140 + 204 ) = 528;
Analogue code A2 and A6
------------------------------
AC A2,A6 = ( 21 + 82 + 45 + 09 + 041 + 402 ) = 600;
( CA2,A6 + AC A2A6) = ( 528 + 600 ) = 1128;
1128 = ( 197 +
931) ;
Connecting of groups elements
---------------------------
CA1,A7 = 528;
CA2,A6 = 528;
----------------------
528 and 528 = decoding scheme = 528 528;
528 528 = (74 +
139 + 931) + (74 + 139 + 931) + .....(74 + 139 + 931);
528 528 = (74 + 139 + 931)
x 462.
---------------------
ACA1,A7 = 600;
ACA2,A6 = 600;
----------------------
600 and 600 = decoding scheme = 600 600;
600 600 = [
(74 + 139 + 931) + (931 + 139 + 74)] + ....
+[
(931 + 139 + 74) + + (74 + 139 + 931)] ;
528 528 = (74 + 139 + 931)
x 525.
Diagram
(Decoding scheme 528 528 + Decoding scheme 600 600) =
1129128;
1129128 = ( 197
+ 931 + 197 + 931 + 197 + 931......Etc.);

Diagram 1: Decoding scheme of groups of elements AC A1
and AC A2;
---------------------
1129128
= (197 + 931)
x 1001;
It is interesting fact that this same system of coding can
be found in the Tables of genetic code, but we will talk about that
later.
Atomic
numbers
----------------
Groups A1 and A7
-----------------
(3 + 9) = 12 = A11;
(11 + 17) = 28 = A12;
(19 + 35) = 54 = A13;
(37 + 53) = 90 = A14;
(55 + 85) = 140 = A15;
(87 + 117) = 204 = A16;
------------------------
GA1A7 =(A11+(A11+A12) + (A11+A12+A13) + (A11+A12+A13 +
+ A14)+ (A11+A12+A13+A14+A15) + (A11+A12+A13+A14+A15);
GA1A7= (12 + (12 + 28) + (12 + 28 + 54) + (12 + 28 + 54
+ 90) + (12 + 28 +
+ 54 + 90 + 140) + (12 + 28 + 54 + 90 + 140 + 204);
GA1A7 = (12 + 40 + 94 + 184 + 324 + 528) = 1182;
1182 = ( 197 +
197 + 197 + 197 +.............+ 197);
--------------------------------
Groups A2 and A6
----------------
(4 + 8) = 12 = A21;
(12 + 16) = 28 = A22;
(20 + 34) = 54 = A23;
(38 + 52) = 90 = A24;
(56 + 84) = 140 = A25;
(88 + 116) = 204 = A26;
----------------------
GA2A6 =(A21 + (A21+A22) + (A21+A22+A23) +
(A21+A22+A23+A24) +
+ (A21+A22+A23+A24+A25) + (A21+A22+A23+A24+A25);
GA2A6= (12 + (12+28) + (12+28+54) + (12+28+54+90) +
+ (12+28+54+90+140) + (12+28+54+90+140+204);
GA2A6 = (12+40+94+184+324+528) = 1182;
1182 = ( 197 +
197 + 197 + 197 +.............+ 197);
--------------------------------
GA1A7 = GA2A6 =
(197 + 197 + 197 +...........+ 197);
----------------------------------------------
The pairs of groups
-----------------
Li, F, Be, O = Atomic numbers = 24 = P1;
Na, Cl, Mg, S =56 = P2;
K,Br,Ca,Se = 108 = P3;
Rb, J, Sr, Te = 180 = P4;
Cs, At, Ba, Po = 280 = P5;
Fr, element 117, Ra, element 116 = 408 = P6;
(P1+P2+P3+P4+P5+P6) = (24+56+108+180+280+408) = 1056;
Analog code = (42+65+801+081+082+804) = 1875;
(1056 + 1875) = 2 931;
------------------------------
SP =(P1 + (P1+P2) + (P1+P2+P3) + (P1+P2+P3+P4) +
(P1+P2+P3+P4+P5) +
+ (P1+P2+P3+P4+P5+P6);
SP =(24 + (24+56) + (24+56+108) + (24+56+108+180) +
(24+56+108+180) +
+ (24+56+108+180);
SP = (24+80+188+368+648+1056) = 2364;
2364 = ( 197 +
197 + 197 +.......................197);
------------------------
(P1 + (P1 + P2) + (P1 + P2 + P3) = (24 + 80 + 188) =
292;
Analogue code =
(42 + 08 + 881) = 931;
PRINCIPAL
ELEMENTS
------------------------------
(Atomic numbers, periods, and groups)
H = 1; Period = 1; Group = 1; Decoding scheme = 1,1,1 =
111;
He = 2; Period = 1; Group = 0; Decoding scheme = 2,1,0 =
210;
Li = 3; Period = 2; Group = 1; Decoding scheme = 3,2,1 =
321;
Be = 4; Period = 2; Group = 2; Decoding scheme = 4,2,2 =
422;
Etc.
(111+210+321+422+523+624+725+826+927+1020+
+1131+1232+1333+1434
+1535 + 1636+1737+1830+
+1941+2042+3143+3244+3345+ 3446+3547+3640+3751 +
+3852+4953+5054+5155+5256+5357+5450+5561+5662+
+8163+8264+8365+8466+8567+8660+8771+8872+11373+
+11474+11575+11676+11777+11870) = 229849;
229849
=(139+931+139)+(139+931+139)+(139+931+139) +………
+
139+(139+931+139)+(139+931+139)+(139+931+139);
229849 =(139+931+139)x95)+139+(139+931+139)x95);

Diagram 2: Decoding scheme of principal elements
In this example we have coding in the number 931,
and it's analog code.
Etc.
In this text we have mentioned examples so we could
decode the Table of Periodical system. There are some other examples. The
chemical elements from this Table have many other code markings. Those
markings connect them in numerous complex program
system, cybernetic system, and informational system. The most interesting
codes that a exist
in this Table are codes 931, 74, 19 and 7, and groups of markings of X
numbers. These are some of the examples:
ORBITAL
------------
s= 01; p= 03; d= 05; f= 07;
Decoding of orbital:
01, 03, 05, 07 = 01030507;
1030507 = ( 197
+ 197 + 197 + 197+..................+ 197);
---------------------------------------------
etc.
These are some of the examples for sequencing of
phenomena with codes 19, 7 and 931 that we have discovered in basic code
in the nature itself.
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