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This is the first of two volumes offering the very first comprehensive treatise of self-organization and non-linear dynamics in electrochemical systems. The second volume covers spatiotemporal patterns and the control of chaos. The content of both volumes is organized so that each description of a particular electrochemical system is preceded by an introduction to basic concepts of nonlinear dynamics, in order to help the reader unfamiliar with this discipline to understand at least fundamental concepts and the methods of stability analysis. The presentation of the systems is not limited to laboratory models but stretches out to real-life objects and processes, including systems of biological importance, such as neurons in living matter. Marek Orlik presents a comprehensive and consistent survey of the field.
Electrochemical sensors. --- Electrochemistry, Industrial. --- Electrochemistry. --- Semiconductors. --- Chemistry --- Physical Sciences & Mathematics --- Physical & Theoretical Chemistry --- Self-organizing systems. --- Learning systems (Automatic control) --- Self-optimizing systems --- Chemistry. --- Neurosciences. --- Physical chemistry. --- Physical Chemistry. --- Chemistry, Physical and theoretical --- Cybernetics --- Intellect --- Learning ability --- Synergetics --- Chemistry, Physical organic. --- Physical sciences --- Chemistry, Physical organic --- Chemistry, Organic --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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This is the second of two volumes offering the very first comprehensive treatise of self-organization and non-linear dynamics in electrochemical systems. The first volume covers general principles of self-organization as well as temporal instabilities. The content of both volumes is organized so that each description of a particular electrochemical system is preceded by an introduction to basic concepts of nonlinear dynamics, in order to help the reader unfamiliar with this discipline to understand at least fundamental concepts and the methods of stability analysis. The presentation of the systems is not limited to laboratory models but stretches out to real-life objects and processes, including systems of biological importance, such as neurons in living matter. Marek Orlik presents a comprehensive and consistent survey of the field.
Self-organizing systems. --- Electrochemistry. --- Chaotic behavior in systems. --- Chaos in systems --- Chaos theory --- Chaotic motion in systems --- Learning systems (Automatic control) --- Self-optimizing systems --- Chemistry. --- Neurosciences. --- Statistical physics. --- Dynamical systems. --- Statistical Physics, Dynamical Systems and Complexity. --- Chemistry, Physical and theoretical --- Differentiable dynamical systems --- Dynamics --- Nonlinear theories --- System theory --- Cybernetics --- Intellect --- Learning ability --- Synergetics --- Complex Systems. --- Statistical Physics and Dynamical Systems. --- Physics --- Mathematical statistics --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system --- Physical sciences --- Statistical methods --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Statics
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Statistical physics --- Electrochemistry --- Neuropathology --- chaos --- neurologie --- theoretische fysica --- elektrochemie
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Electrochemistry --- Physicochemistry --- Neuropathology --- neurologie --- fysicochemie --- elektrochemie
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This is the second of two volumes offering the very first comprehensive treatise of self-organization and non-linear dynamics in electrochemical systems. The first volume covers general principles of self-organization as well as temporal instabilities. The content of both volumes is organized so that each description of a particular electrochemical system is preceded by an introduction to basic concepts of nonlinear dynamics, in order to help the reader unfamiliar with this discipline to understand at least fundamental concepts and the methods of stability analysis. The presentation of the systems is not limited to laboratory models but stretches out to real-life objects and processes, including systems of biological importance, such as neurons in living matter. Marek Orlik presents a comprehensive and consistent survey of the field.
Statistical physics --- Electrochemistry --- Neuropathology --- chaos --- neurologie --- theoretische fysica --- elektrochemie
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This is the first of two volumes offering the very first comprehensive treatise of self-organization and non-linear dynamics in electrochemical systems. The second volume covers spatiotemporal patterns and the control of chaos. The content of both volumes is organized so that each description of a particular electrochemical system is preceded by an introduction to basic concepts of nonlinear dynamics, in order to help the reader unfamiliar with this discipline to understand at least fundamental concepts and the methods of stability analysis. The presentation of the systems is not limited to laboratory models but stretches out to real-life objects and processes, including systems of biological importance, such as neurons in living matter. Marek Orlik presents a comprehensive and consistent survey of the field.
Electrochemistry --- Physicochemistry --- Neuropathology --- neurologie --- fysicochemie --- elektrochemie
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