Genetic feature of initial structure of a nuclear symbol is in a form of the maintenance of a charge. Thus the form consists of the periods of volume of the structure. There is no valid imitation of concrete symbols. All system of structure is in a condition of uncertain numerical plasma of the definition (a numerical set). Distribution of the main functions can be provided on an uncertain stage. Thus, function of a proton has possibility for the maintenance of considerable number of functions of neutrons from a numerical set. Here, a neutron - a product of formation of functions of protons. Everything occurs at the expense of conditions of uncertainty of concrete system of structure. In this case, uncertainty is lack of known quantum forces. In this condition the system itself defines future distribution of structure of volume. Some functions of protons for the general moment of a condition of all system of spheres are allocated. The number of functions of protons in system of structure is defined by the relation of spheres of scales in structure volume. Equality of functions of a proton, in one total amount, divides structure among themselves without formation of stable symbols. These are temporary "huge" ions. These maximum formations are in final stages between the main phases of nucleons:

                                   [((A + B) / B)^-1] ← [((A + B) / A) ^-1]

For example, the conflict of these two phases in Oxygen structure - 13, forms an ion mass number: [20,8005]], [t-otn = 2,6000625], keeping thus the number of a charge: [z= 8].

But in structure imitation of one more charge from the main number of a nucleon is formed. It is an ion mass number: [13,0003125]], [z= 5]. There is an imitation of system of distribution of the same relation [t-otn], between an isotope “O²⁰” and “B¹³”.

The Oxygen isotope - 14, in the same conditions, forms system of two ions in weight:

[18,66756662] and [14,00067498], corresponding charges: [z= 8], [z = 6].

Here Carbon imitation - 14 is formed. The general relation of these mass numbers to the charges will make: [t-otn = 2,33344583].

Oxygen – 15 is unique. Keeps the charge in both cases, as well as Oxygen – 16, reducing relation number to: [t-otn = 1,882017432]. In this case, Oxygen simulates a charge “Nitrogen – 14” and “Carbon – 15” where the number of nucleons of Nitrogen and Carbon are in the Oxygen phase:

                                    [((A + B) / B)^-1] → Nnkl^8 → C nkl^4

This feature explains mass number “15” which is volume of a numerical projection of a charge “8”. Here it is necessary to present unit structure. The number which contains secret of all numbers - comprises the main functions of the numerical conflicts. Its main contents – area and volume communication.

             1 = (0,5 + 0,33333333 + 0,166666667) → [2^-1] ↔ [3^-1] ↔ [6^-1] = 11(!)

Then it is clear why number “8”: (0,5^3)^-1 = 2^3 = 8(!)

Using concept: [n^-1] as a number field, we will substitute instead of [3^-1] number [π^-1].

             (0,5 + 0,318309886 + 0,166666667) = √0,984976553^-1 = 1,007597436(!)

Certainly, number “8” also is transformed concerning any changes.

Addition: [2π^-1], instead of [6^-1] makes number: √0,984919554^-1 = 1,007626591. 

Then volume: V (0,5) = 0,062449847^-1 = 15,27887454(!)

Volume: V (8) = 268,0825731,

Nucleon: nkl^2 = (268,0825731/268) ^2 = 1,000616312 = mp ′ O¹⁶

Then the equation of communication of volume and structure will make:

                 exp [V(8)^-1] = O15[((A + B) / B)^-1] → Nnkl^8 → C nkl^4

Further, O¹⁷structure, distributes two charges. The main: [z= 8] and increased: [z= 9], simulating stable, F¹⁹. O¹⁸structure, distributes charges: [z= 8] and [z = 10], simulating Ne²². O¹⁹structure, distributes charges: [z= 8] and [z = 11], simulating Na²⁶. O²⁰structure, distributes charges: [z= 8] and [z = 12], simulating unknown Mg³⁰.

It is a static example of momentny communication without conditions of orientation of structure. In case of a dynamic combination of projections, mass numbers of ions can be several times more concerning the maintenance of number of a charge. It is possible to call such formations as structure without kernels. In the conditions of late spheres, proton structures are distributed on power levels of the general relation to mass number, forming atom. At an early stage of formation of the main phases a distance between protons still the uncertain. The structure of the contents is the general at the expense of processes of leveling of arising charges. In particular, stable structures leave numerical gaps in the course of leveling of rather established scales. These are equal, for genetic symbols of number, but with characteristic drawing for each case. For example, in a static look, process of leveling of O¹⁶consists of 17 steps.

O¹⁶(18):  →   2, 9, 13, = 1,11022*10^-16, 

                      8, 14, 15 = -1,11022*10^-16,

                                16 =  2,22045*10^-16.

The free:       [1, 3, 4, 5, 6, 7, 10, 11, 12, 17] = 0

N¹⁴(21):  →  5, 10, 18, 21 = 1,11022*10^-16

                     3, 7, 8, 13 = - 1,11022*10^-16

                     4, 16 = 2,22045*10^-16

                     2, 17, 19 = -2,22045*10^-16

The free:      [1, 6, 9, 11, 12, 14, 15, 20] = 0

He⁴(20): →  2, 3, 11, 15, 20 = 1,11022*10^-16

                     6, 7, 10, 14, 16, 17 = - 1,11022*10^-16

                     8 = 2,22045*10^-16

                     1, 19 = - 2,22045*10^-16

The free:       [4, 5, 9, 12, 13] = 0

C¹²(22):  →  5, 13, 15, 20 = 1,11022*10*^-16

                      1, 9, 14, 18 = - 1,11022*10^-16

The free:        [2, 3, 4, 6, 7, 8, 10, 11, 12, 16, 17, 19, 21, 22] = 0

According to these data it is possible to establish exact numbers of protons and neutrons in symbol structure. Definition of numerical receptors allocates not only feature of external orientation, but also a component of the number of a nucleon. For example, [t-otn C¹²], consists of a field of number of the first neutron and number of the last. The cartogram of structure of numbers of process of leveling is applied to all elements. These levellings are distributed on two functions of the main structure. As a result, the number of a proton is transformed to a field of number of a neutron (a charge mutation). The number of a neutron is transformed to new number of a neutron (entropy), defining the main part of number of a mass nucleon. Thus, the nucleon number, contains the doubled sum of number and a field of neutrons – a field of the first neutron and number of the last neutron.

Scheme of structure of a nucleon: mp → 2 [(mn ′^-1 ↔ mn ′) + mn ′′] = nkl

Then, in a condition of leveling of the main functions, the number of a field of the first neutron gets proton function: [mn ′^-1 → mp].

This very important definition as there is a possibility for management of thermal processes directly in formation of synthesis of structure. The system loses a charge, but gets spectral thermal distribution in structure. The condition of the main functions is leveled by definition of numerical sets. Here allocation of features of spectral widths is possible. In this case practical opportunity for management of thermal processes by means of shunting of values of spectral lines is given. From the offered symbols only Carbon breaks symmetry of leveling. Its quantitative have the bases numbers:

                                [15,33527487] + [14,6455855] = [29,98086044]

From the point of view of spheres: V (15,33527487^-1) = mpO¹⁶(1,000613722)

                                      V (14,6455855^-1) = mp

The sum [29,98086044] corresponds to the second ion of O¹⁶in structure of phases:

                                 [((A + B) / B)^-1] ← [((A + B) / A) ^-1]

With charge number: [z= 12]. Feature of process of leveling and a cartogram of Carbon open its physical and chemical characteristics. Imitation of this model allows to use separate phases of structure of Carbon directly for division of "huge" ions in genetic educations. The shunt of this model blocks undesirable sequence development of a mutation of structure. Localization of superfluous thermal processes maintains useful functional balance between spheres of structural relations. In this case, heat is considered as a range of the thermal characteristics containing different features. Difference of thermal processes corresponds to sequence of processes of leveling from a proton to a neutron. These are superthin spectral levels have the borders of scales in which own thermal field is established. In conditions of thermonuclear reactions, use of shunts localizes radiating fields for generation of electric fields.

(According to documents: ? 3-13330 from 31.10.1990?. ? 4-1032 from 05.02.1992?.)