**3.3. Results and conclusions**

The approach allows to give some answers to questions on directions of evolution of the models for objects described in physics. The example illustrated is indicating the fractal nature of emergence and changing from one level to another in the process of building a KP structure of *K*(*i*) type.

For a NES, this process is repeated in iterations producing versions (*R*0,…*Rn*) generating manifolds of results of *MRi* and *MStrRi*. types (Figure 3).

This process of model generation has the following main characteristics:


**Figure 4.** Illustration of emergence for various phases and energy sources [11]

A reformulation of the last statement can be made in the sense that the lessons learnt on NES systems models in this moment (by using the proposed approach) is that

**•** The process of emergence from one level—one source of energy to another—has a finite character from the number of phases described by syzygy type of characteristics.

