General System Theory: Foundations, Development, Applications |
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Page 146
... protein 0.0087 proteins of liver and serum 0.0693 protein of musculature and other organs 0.0044 Table 6.3 Rate of mitosis in rat tissues . ( After F. D. BERTALANFFY 1960 ) Organs without mitosis nerve cells , neuroepithelium ...
... protein 0.0087 proteins of liver and serum 0.0693 protein of musculature and other organs 0.0044 Table 6.3 Rate of mitosis in rat tissues . ( After F. D. BERTALANFFY 1960 ) Organs without mitosis nerve cells , neuroepithelium ...
Page 157
... protein synthesis ( A : amino acids , B : protein , C : deamination products ; k1 : polymerization of amino acids into protein , k2 : depolymeri- zation , kg : deamination ; k < k1 , energy supply for protein synthesis not indicated ) ...
... protein synthesis ( A : amino acids , B : protein , C : deamination products ; k1 : polymerization of amino acids into protein , k2 : depolymeri- zation , kg : deamination ; k < k1 , energy supply for protein synthesis not indicated ) ...
Page 174
... protein / kg . body wt./day for man were calculated ( von Bertalanffy , 1938 ) . De- terminations of protein catabolism then available did not agree with these predictions : protein loss determined by minimum N - excretion was 0.00282 ...
... protein / kg . body wt./day for man were calculated ( von Bertalanffy , 1938 ) . De- terminations of protein catabolism then available did not agree with these predictions : protein loss determined by minimum N - excretion was 0.00282 ...
Contents
Introduction | 3 |
The Meaning of General System Theory | 30 |
Information and Entropy | 41 |
Copyright | |
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allometric animal appears applied approach aspects atoms basic Bertalanffy biological catabolism causality cell characteristics chemical classical classical physics closed systems complex components concept consideration considered constant contrast cultural cybernetics decision theory defined differential equations dynamic dynamical system theory editor elements energy entities entropy equifinality equilibrium essentially evolution example experience expressed fact feedback fields formulation functions game theory growth curves homeostasis important increase individual information theory interaction isomorphic kinetics language laws living organism living systems Lotka Ludwig von Bertalanffy machine means mechanisms mechanistic mental metabolic rate modern nature open systems organismic phenomena philosophy physics physiological present principle problems processes Psychiatry psychology psychophysical quantitative reaction reality regulations relations robot Schizophrenia scientific sense similar so-called social sciences sociology specific steady structure symbolic teleology theoretical theory of open thermodynamics tion universe variables vitalistic weight whole world picture York