Ferghana Polytechnic Institute, Ferghana, Uzbekistan
Annotation. The development of various kinds of achievements in modern science leads to an acceleration of the process of determining a new kind of invention and the impact of one of the phenomena on others. The proof of this can be a technology that has never been mentioned, but is only now actively developing as a separate method, namely, the technology of accelerating plant growth through the influence of electromagnetic fields on them and on the soil occupied by them.
Keywords: electromagnetic field, physico-biological processes, photosynthesis, growth acceleration, plants.
Аннотация. Развитие самого разного рода достижений в современной науке ведёт к ускорению процесса определения нового рода изобретений и воздействия одного из явлений на другие. Доказательством тому может служить технология, никогда упоминаемая, но лишь ныне активно развивающаяся в роли отдельного способа, а именно технология ускорения роста растений посредством влияния на них и на занимаемую ими почву электромагнитных полей.
Ключевые слова: электромагнитное поле, физико-биологические процессы, фотосинтез, ускорение роста, растения.
The process of plant growth itself, as is known, is based on a whole array of various physical, chemical and biological phenomena, each of which contributes to the overall growth, however, one of the processes can affect quite quickly, the other on the contrary – makes less effort, but also remains important. Responsible for their specific area in the whole overall process. The growth itself is explained by the active cell division of the plant itself, for which it expends certain energy resources, as the same ATP molecules, as well as biological ones. For example, for the initial synthesis of proteins, after contact with deoxyribonucleic acid (DNA) with transcriptase in the nucleolus and the formation of information ribonucleic acid (i-RNA), as well as its subsequent transfer through the cytoplasm to ribosomes, where the synthesis of all necessary proteins is carried out, it is necessary to introduce "materials" there as transport RNA.
In order for each of the cells to receive the necessary material in the role of food, which the cell absorbs through its shells and directs the necessary inhibitor proteins that break it down into parts, as well as in the Golgi complex, enzymes that form from them necessary for reproduction. Moreover, when a cell receives everything necessary for the continuation of the "genus", its nucleus first begins to divide, of course, with the copying of DNA and chromosomes in the nuclei, although the loss of transcriptase at the ends. Further, the necessary vacuoles and other parts of the cell also begin to be equally distributed, eventually increasing the cell to the state until finally the outer shell forms two new cells from this mass, so one cell divides and thus the whole plant grows, if necessary, receiving additional chemical and biological "signals" for division in one or another form. For example, turning already from stem cells into cells of leaves, petals, etc.
