Sucharev | Wave Oscillations in Colloid Oxyhydrates | Sonstiges | 978-0-87849-169-8 | sack.de

Sonstiges, Englisch, 512 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g

Sucharev

Wave Oscillations in Colloid Oxyhydrates


Erscheinungsjahr 2010
ISBN: 978-0-87849-169-8
Verlag: Trans Tech Publications

Sonstiges, Englisch, 512 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g

ISBN: 978-0-87849-169-8
Verlag: Trans Tech Publications


Volume is indexed by Thomson Reuters BCI (WoS).
The importance of coherent chemistry, that is, the chemistry of periodic oscillatory processes, is increasing at a rapid rate in specific chemical disciplines. While being perfectly understood and highly developed in the fields of physical chemistry, chemical physics and biological chemistry, the periodic developmental paradigm of processes and phenomena still remains poorly developed and misunderstood in classical inorganic chemistry and related branches, such as colloid chemistry. The probability is that we miss subtle colloid chemical phenomena that could be of utmost importance if taken into consideration when catalysis or adsorption is involved. The author here reveals all of the astonishing vistas that periodic wave paradigms open up to researchers in certain colloid chemical systems, and will doubtless stimulate researchers to look at them in a new light.
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1.1 Polymerization of the Hydrated Particles of Zirconium Oxyhydrate1.2 Emission-Wave Duality of Behavior of the Periodical Processes in the D- and F-Elements? Oxyhydrates. 1.3 Periodicity of the Efficient Diffusion Coefficients1.4 Quantization of the Pacemakers? Radiuses in Oxyhydrate Gels1.5 Bifurcation of the Pacemakers? Radius Doubling in Gel Oxyhydrate Systems1.6 Extensional Dilatancy and Dimensions of the Pacemakers1.7 The Periodical State IsothermAbstract 1.11.8 other Forms and Types of Oscillatory Motions in Oxyhydrate SystemsAbstract 1.2. Instrumental Support2.1 Theory2.2 Synchronization of the Periodical Oxyhydrate Systems2.3 Mathematical Modeling Problem2.4 Connections between Certain Self-Organization Parameters2.5 Conclusions3.1 Some of the TGM?s Experimental Results3.2 Oxyhydrate Clusters Structuring in Non-Equilibrium Conditions3.3 the Way the Ageing Time Affects the Sorption Properties of the Zirconium Oxyhydrate3.4 Conclusions4.1 Modeling of Autowave Shaping Processes in D- and F- Elements? Oxyhydrate Gels. the Simplest Mathematical Model of the Reaction-Diffusion Type4.2 Studies of a Modeled Oxyhydrate System4.3 Modeling of the Gel Shaping in an Active Excitable Medium by Means of the Molecular Dynamics Methods and the Monte Carlo Method4.4 Coulomb Diffusion Model4.5 Conclusions5.1 Liesegang Operator as a Reflection of the Gel Polymer Systems? Oscillatory Properties. Introduction of the Liesegang Operator5.2 Studying a Highly Nonlinear Diffusion EquationAbstract 5.1 TheoremsAbstract 5.2 Gel?s Formation Stationary Problem5.3 Simplified Notation for the Liesegang Operator5.4 Hydrodynamic Approach5.5 Liesegang Operator and some Experimental Data5.6 Conclusions6.1 Single-Particle Problem. Cluster?s Motion in the Field of the Lenard-Jones Potential6.2 Cluster Motion in the Lenard-Jones Potential6.3 Experimental Detection of the Current Surges? Periodical Toroid Conformations in the Gel Oxyhydrate Systems, the Structural Self-Organization StagesAbstract 6.1 Formative Characteristics of Zirconium Oxyhydrate Conformers6.4 Colloid Chemical Version of the Arnold Diffusion in Oxyhydrate Systems6.5 Conclusions7.1 Compiled Theoretical Consideration of the Synchronization Mechanism in Stochastic Systems as such7.2 Calculation and Recovery of the Self-Organization Current Surges? Attractors in the Zirconium Oxyhydrate?s Macromolecules with an Optimal Delay7.3 Role of the Noise in Excitable Oxyhydrate Systems7.4 Analysis of Experimental Poincar? Cross-Sections in Zirconium, Oxyhydrate Colloid Gels7.5 ConclusionsAbstract 7.1 AlbumAbstract 7.2 ?able 1. Dimensions and Frequencies of the Clusters Formed in the Zirconium Gel Oxyhydrate SystemsAbstract 7.3 Table 2. some Data on Ageing of the Zirconium Oxyhydrate Gel8.1 Attractors in Colloid Chemical Flow Systems8.2 Experimental Manifestation of Alterations in Noise Viscous Parameters of Gel Oxyhydrate Systems when they Flow8.3 Formation of Nonequilibrium Oxyhydrate Structures8.4 ConclusionsAbstract 8.19.1 Light Absorption Equation on Conformer ?Noise? Clusters9.2 The Way the Pulsation Noise or Self-Organizational Current in a Magnetic Field Affects Optical Parameters of Zirconium Oxyhydrate9.3 Optical Density Kinetic Curves for Yttrium Oxyhydrate Gels9.4 Conclusions10.1 The Way an External Magnetic Field Affects Toroid Stochastic Noise in a Gel Oxyhydrate System10.2 Stable Magnetic Field and Oxyhydrate Gels? Freshly Deposed Residues10.3 Conclusions


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