— Third, superfluous energy allocated in higher layers results not only the synthesis of kernels, but also the compression of matter of a star in the low layers that promotes formation of a dense kernel of a star — «the white dwarf».
Hence, it is possible to draw a conclusion, that the synthesis of heavy and over heavy kernels is one of the necessary conditions for the existence of stars, especially the heavy ones, which will collapse in the end of life.
During the analysis of allocation of energy, we have chosen one of the chains of synthesis, but other variants of chains are possible. We shall consider allocation of energy at synthesis of two kernels in two chains (₁¹H — a kernel with Z=110, A=272), represented on schemes № S-3.5 and № S-3.6.

(25) Scheme № S-3.5.

(26) Table № T-3.3, lines 22, 23.

   

(27) Scheme № S-3.6.

(28) Table № T-3.3, lines 34, 35.

In tables of schemes № S-3.5 and № S-3.6 the results of the energy allocated in the given chains by steps are yielded, as well as the sums of this energy. These data is taken from the table № T-3.3, the results of calculations are brought in the same table for kernels of atoms, data which we use in this analysis.

(29) Table № T-3.3. 
Allocation of energy in steps at synthesis of 2 KERNELS or nuclides. 

The schedule № G-3.3 is constructed according to the table № T-3.3 for schemes № S-3.5 and № S-3.6

The allocation of energy at the moment of synthesis of the KERNEL with Z=110, A=272 two different ways.
(30) Schedule № G-3.3.

Let’s analyze the schedule № G-3.3. We shall consider the allocation of energy at synthesis of a kernel with Z=110, A=272 two ways. Apparently from the constructed schedules, the change of a chain of synthesis leads to minor alterations in the allocation of energy with which can be disregarded at the drawing of the general characteristic of allocation of energy, at synthesis of heavy kernels.