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＜電子ブック＞
Thermodynamic Network Analysis of Biological Systems / by J. Schnakenberg
(Universitext. ISSN:21916675)

版	1st ed. 1977.
出版者	(Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer)
出版年	1977
本文言語	英語
大きさ	online resource
著者標目	*Schnakenberg, J author SpringerLink (Online service)
件　名	LCSH:Life sciences LCSH:Medicine -- Research  全ての件名で検索 LCSH:Biology -- Research  全ての件名で検索 FREE:Life Sciences FREE:Biomedical Research
一般注記	1. Introduction -- 2. Models -- 2.1 The Purpose and Nature of Models -- 2.2 Enzyme-Catalyzed Reactions and the Michaelis-Menten Kinetics -- 2.3 Transport Across Membranes: A Black-Box Approach -- 2.4 Excitation of the Nervous Membrane: Hodgkin-Huxley Equations -- 2.5 A Cooperative Model for Nerve Excitation -- 2.6 The Volterra-Lotka Model -- 2.7 A Model for the Control of Metabolic Reaction Chains -- 3. Thermodynamics -- 3.1 Thermodynamics Systems -- 3.2 The First Law of Thermodynamics -- 3.3 The Second Law of Thermodynamics -- 3.4 Temperature and Transfer of Heat -- 3.5 Chemical Potential and the Transfer of Matter -- 3.6 Chemical Reactions -- 3.7 Some Basic Relations of Equilibrium Thermodynamics -- 3.8 Perfect Gases and Ideal Mixtures -- 3.9 Linear Irreversible Thermodynamics -- 4. Networks -- 4.1 Network Language and Its Processes -- 4.2 Storage Elements: Generalized Capacitances -- 4.3 Kirchhoff’s Current Law and the 0-Junction -- 4.4 Unimolecular Reactions -- 4.5 Higher-Order Reactions, Kirchhoff’s Voltage Law and the 1-Junction -- 4.6 Diffusion -- 5. Networks for Transport Across Membranes -- 5.1 Pore Models -- 5.2 Pore Blocking -- 5.3 Self-Blocking of Pores -- 5.4 Carrier Models -- 5.5 Active Transport -- 5.6 Hodgkin-Huxley Equations and the Coupling of Material and Electric Flux -- 5.7 Nernst-Planck Equations -- 6. Feedback Networks -- 6.1 Autocatalytic Feedback Loops -- 6.2 An Autocatalytic Excitation Model -- 6.3 Networks of Al-Elements -- 6.4 Limit Cycle Networks -- 7. Stability -- 7.1 Capacitances as Thermodynamic Equilibrium Systems -- 7.2 Stability of the Equilibrium State -- 7.3 Tellegen’s Theorem and Liapunov Stability of the EquilibriumH -- 7.4 Glansdorff-Prigogine Criterion for the Stability of Nonequilibrium Steady States -- 7.5 Uniqueness of Steady States -- 7.6 Globally andAsymptotically Stable Networks -- 7.7 Global Stability Techniques -- References This book is devoted to the question: What fundamental ideas and concepts can phys­ ics contribute to the analysis of complex systems like those in biology and ecolo­ gy? The book originated from two lectures which I gave during the winter term 1974/75 and the summer term 1976 at the Rheinisch-Westfalische Technische Hoch­ schule in Aachen. The wish for a lecture with this kind of subject was brought forward by students of physics as well as by those from other disciplines like biology, physiology, and engineering sciences. The students of physics were look­ ing for ways which might lead them from their monodisciplinary studies into the interdisciplinary field between physics and life sciences. The students from the other disciplines suspected that there might be helpful physical concepts and ideas for the analysis of complex systems they ought to become acquainted with. It is clear that a lecture or a book which tries to realize the expectations of both these groups will meet with difficulties arising from the different train­ ings and background knowledge of physicists and nonphysicists. For the physicists, I have tried to give a brief description of the biological aspect and significance of a problem wherever it seems necessary and appropriate and as far as a physicist like me feels authorized to do so HTTP:URL=https://doi.org/10.1007/978-3-642-96394-0

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