期刊名称:Analele Universităţii Constantin Brâncuşi din Târgu Jiu : Seria Economie
印刷版ISSN:1844-7007
出版年度:2008
卷号:02
出版社:Academica Brâncuşi
摘要:attracted more and more attention. In particular, this concerns the effect of electromagnetic fields of various bands. Since the moment they invented radio, out planet’s radiation has grown by several times within the radiofrequency region of electromagnetic waves and now from the point of view of an outsider we look like a star with an increasing radiant power. Due to objective reasons a human organism is not able to adjust to technogenic electromagnetic radiation and, does not have appropriate adjustment mechanisms. This problem has already been named electromagnetic smog. Widely spread personal cellular communication obviously makes this problem particularly acute. The fact that cellular phones are in direct contact with a human organism both when transmitting and receiving a desired signal and in sleep mode constitutes their peculiarity as electromagnetic radiation generators. And this contact is rather deep since it is effected by cerebral cells, which are correspondingly influenced first of all. Nowadays the issue, concerning the influence of cellular phones radiation in particular and industrial radiation in general on the whole human organism as a biological hypercomplex system is of extreme current interest and has a marked business targeting. The problem is to define adequately the level of harmfulness of particular radiation for biodiversity. The frequency issue involves analysis of harmfulness (or usefulness) level of a particular electromagnetic radiation spectrum. The core of the issue is that any bioorganism is not shaped in complete isolation from the outworld but alternatively within full and tough contact. The main point is, which types of radiation are useful for a human being and which are alternatively harmful ones. An organism (not one but at least organisms of a test group of various ages, different types of skin and etc.) is required to be examined before artificial tanning, during and after it. The similar situation is observed when using any device, generating electromagnetic oscillations of a particular spectrum. Nanotechnologies development and control and metrological equipment improvement has raised absolutely unexpected facts, which required significant investigators’ efforts to explain them. Mild and ultramild effects of electromagnetic, electric and magnetic fields appear to influence early known physical phenomena such as crystallization, polymerization, change of state and etc. At this, the effects’ intensity may be considerably lower than the level of thermal vibrations in a solid body structure, i.e. according to traditional views such effect should be immediately diffused and dissolved. Since most biological systems constitute colloid systems they are subject to fixed investigation with regard to nanotechnologies.
