Monday, April 2, 2007
Thus, The Law Of A Deviation Of A
Thus, the law of a deviation of a homeostasis is carried out. But such increase in capacity is hardly realizable only as a result of changes in most . it is constructed of nervous cages which lose ability to division in a mature organism. Another matter - the forward share of a hypophysis entering in gipotalamo-gipofizarnyj a complex. This part of a hypophysis is constructed of a ferruterous fabric for which ability to increase both working volume of each cage, and number of cages is characteristic. Therefore capacity of system can easily increase (at the expense of hypophysis activity) and at the same time in it ability to exact regulation according to the signals which are starting with nervous cages can remain. Owing to it gipotalamo-gipofizarnyj the complex is "material resources" of special type of the regulation, a peculiar dynamo-cybernetic to systems power, adaptable and reproductive . But after all most gipotalamno-gipofizarnoj it is not enough structure to provide increase in capacity in these in three .
All Listed Reasons Also Have Induced Me To
All listed reasons also have induced me to undertake for not absolutely usual work for themselves - to write the book popular scientific, calculated as it would be more habitual for me, not on colleagues, and on ready more a wide range of readers. This book is addressed to all by that who is interested in understanding laws of development of live organisms. First of all - to biologists and physicians of various specialities who aspire all more deeply how are interconnected development, ageing and illnesses of ageing, and also to physiologists who study concrete mechanisms of activity of a normal organism. Besides, it is possible, my work will be read by experts in the field of the exact sciences, and in particular mathematics which search for objects for mathematical modelling of biological processes; cybernetics which analogies and a generality of laws of management in the live and lifeless nature interest; physicists and chemists who for many years aspired to solve how live organisms counteract the law of increase of entropy.
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