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  • 1
    Online-Ressource
    Online-Ressource
    The common extremalities in biology and physics : maximum energy dissipation principle in chemistry, biology, physics and evolution (2012)
    London :Elsevier,
    Details
    UID:
    almafu_9960073389102883
    Umfang: 1 online resource (394 p.)
    Ausgabe: 2nd ed.
    ISBN: 9786613347848 , 9781283347846 , 1283347849 , 9780123851888 , 0123851882
    Serie: Elsevier insights
    Inhalt: This book is the first unified systemic description of dissipative phenomena, taking place in biology, and non-dissipative (conservative) phenomena, which is more relevant to physics. Fully updated and revised, this new edition extends our understanding of nonlinear phenomena in biology and physics from the extreme / optimal perspective. The first book to provide understanding of physical phenomena from a biological perspective and biological phenomena from a physical perspectiveDiscusses emerging fields and analysisProvides examples
    Anmerkung: Description based upon print version of record. , Front Cover; The Common Extremalities in Biology and Physics; Copyright Page; Contents; Preface; 1 Extreme Energy Dissipation; 1.1 Hierarchy of the Energy Transformation; 1.1.1 Thermodynamics-A Science That Connects Physics and Biology; 1.1.2 Hierarchy of the Processes and Parameters in Thermodynamics; 1.1.3 Macroparameters: Energy and the Forms of Its Exchange; 1.1.4 Macroparameters: Heat as a Nonmechanical Method to Change the Macrostate of Thermodynamic Systems; 1.1.5 Macroparameters: Physical Work as a Pure Mechanical Way to Change Macroparameters , 1.1.6 Macroparameters: The Energy Conservation Law1.1.7 Macroparameters: Free Energy-Macroscopic Measure of Nonequilibrium; 1.1.8 Macroparameters: Universal Fatality of the Processes-The Second Law of Thermodynamics and the Hierarchy of Energy; 1.1.9 Macroparameters: Helmholtz Free Energy; 1.1.10 Macroparameters: Enthalpy; 1.1.11 Link from Macro- to Microparameters: Physical Entropy; 1.1.12 Microparameters: Statistical Interpretation of Free Energy and Entropy; 1.1.13 The Removal of Energetical Nonequilibrium and the Entropy Production; 1.1.14 Dissipation in Chemical Transformations , 1.1.15 Dissipation of Nonequilibrium in Open Systems1.1.16 Energy Dissipation or Entropy Production-The Energy Picture Can Play a Role; 1.1.17 Biological Hierarchy and Its Complexity; 1.1.18 Some Conclusions; 1.2 Extreme Properties of Energy Dissipation; 1.2.1 Comparing Extreme Approaches; 1.2.2 How Is the Elementary Variational Problem Solved?; 1.2.3 Other Necessary Conditions for Local Minimum; 1.2.4 Canonical Equations or Hamiltonian Formulation; 1.2.5 Conclusions; 1.3 Optimal-Control-Based Framework for Dissipative Chemical Kinetics; 1.3.1 Optimal Control and Mechanics , 1.3.2 Dynamic Optimal Control Formulation1.3.3 More General Case; 1.3.4 Optimal Control Interpretations; 1.3.5 Pure Physical Example-Relaxation in an Ideal Resistor-Capacitor Circuit; 1.4 Conclusions; References; 2 Some General Optimal Control Problems Useful for Biokinetics; 2.1 Extreme Dissipation, Optimal Control, and the Least Action Principle; 2.1.1 Conservative Mechanics: Variational Formulation; 2.1.2 On Optimal Control Formulation of Mechanics; 2.1.3 Dissipation in Classical Mechanics; 2.1.4 On an Alternative Way to Describe Biological and Chemical Dissipation , 2.1.5 Comparing Closely the Linear Dissipative and Conservative Models2.1.6 A More Biological Approximation of Penalty Potential; 2.1.7 Simple Biological/Biochemical Example in Terms of Logarithmic Penalty; 2.1.8 Penalty and Dissipative and Conservative Motion; 2.2 Some One-Dimensional Examples of Biokinetics and Optimal Control; 2.2.1 General One-Dimensional Optimal Control Model; 2.2.2 "Additive" Control-Relevant to the Control by the Rate; 2.2.3 "Multiplicative" Control-Relevant to the Control by the Rate Constant; 2.2.4 General Case of the Cooperative Model , 2.2.5 General Case of Cooperative Model: Partial Case h(x)=0, Variational Formulation , English
    Weitere Ausg.: ISBN 9780123851871
    Weitere Ausg.: ISBN 0123851874
    Sprache: Englisch
    Bibliothek Standort Signatur Band/Heft/Jahr Verfügbarkeit
    BibTip Andere fanden auch interessant ...
    Online-Ressource
    HU Berlin
    FU Berlin
    Charité
  • 2
    Online-Ressource
    Online-Ressource
    The common extremalities in biology and physics : maximum energy dissipation principle in chemistry, biology, physics and evolution (2011)
    Oxford : Elsevier
    Details
    UID:
    gbv_1651565236
    Umfang: Online Ressource (xiv, 379 p.) , illustrations (some color).
    Ausgabe: 2nd ed
    Ausgabe: Online-Ausg.
    ISBN: 0123851874 , 9780123851871 , 9781283347846 , 1283347849 , 0123851882 , 9780123851888
    Serie: Elsevier insights
    Inhalt: I1. Energy Dissipation -- 2. Optimal Control and Biokinetics -- 3. Optimal Control and some Applications to Biokinetics -- 4. Extreme Laws of the Evolution in the Biological Trophic Pyramid and the Least Action (Maximum Energy Dissipation) Principle -- 5. Optimal Control Interpretation (in light of Maximum Energy Dissipation principle) of Phenomenology of the Lagrange Formalism in Physics -- 6. Conceptual-Methodological Aspects of Generalised Extremeness in Biology and Physics (Generalized biology)
    Inhalt: This book is the first unified systemic description of dissipative phenomena, taking place in biology, and non-dissipative (conservative) phenomena which is more relevant to physics. Fully updated and revised, this new edition extends our understanding of nonlinear phenomena in biology and physics from the extreme / optimal perspective. The first book to provide understanding of physical phenomena from a biological perspective and biological phenomena from a physical perspective Discusses emerging fields and analysis Provides examples
    Anmerkung: Includes bibliographical references , I1. Energy Dissipation -- 2. Optimal Control and Biokinetics -- 3. Optimal Control and some Applications to Biokinetics -- 4. Extreme Laws of the Evolution in the Biological Trophic Pyramid and the Least Action (Maximum Energy Dissipation) Principle -- 5. Optimal Control Interpretation (in light of Maximum Energy Dissipation principle) of Phenomenology of the Lagrange Formalism in Physics -- 6. Conceptual-Methodological Aspects of Generalised Extremeness in Biology and Physics (Generalized biology).
    Weitere Ausg.: ISBN 0123851882
    Weitere Ausg.: Erscheint auch als Druck-Ausgabe Moroz, Adam Common extremalities in biology and physics Oxford : Elsevier, 2011
    Sprache: Englisch
    Schlagwort(e): Electronic books
    URL: lizenzpflichtig
    URL: Volltext
    Bibliothek Standort Signatur Band/Heft/Jahr Verfügbarkeit
    BibTip Andere fanden auch interessant ...
    Online-Ressource
    Online Zugang
    UB Potsdam
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