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Hydrodynamics
The present book on Hydrodynamics - Concepts and Experiments contains six chapters, each of which devoted to a topic considered interesting to compose this book. Although the tools used in the different chapters are somewhat superposed, a first classification may be presented as: the first two chapters describe numerical models; the third and fourth chapters use experimental tools and results; and the fourth, fifth and sixth chapters present conceptual aspects of fluid dynamics. A more detailed description is furnished in the sequence. The six topics that compose this book may be resumed as: Flow-Structure Interactions, Hydrodynamic Models and Biological processes in Coastal Waters, Useful Cavitation, New Concepts in Hydraulic Jumps, Lagrangian Formulation of Fluid Dynamics, and Small Perturbations in Viscous Fluids.
Topics in Magnetohydrodynamics
To understand plasma physics intuitively one need to master the MHD behaviors. As sciences advance, gap between published textbooks and cutting-edge researches gradually develops. Connection from textbook knowledge to up-to-dated research results can often be tough. Review articles can help. This book contains eight topical review papers on MHD. For magnetically confined fusion one can find toroidal MHD theory for tokamaks, magnetic relaxation process in spheromaks, and the formation and stability of field-reversed configuration. In space plasma physics one can get solar spicules and X-ray jets physics, as well as general sub-fluid theory. For numerical methods one can find the implicit numerical methods for resistive MHD and the boundary control formalism. For low temperature plasma physics one can read theory for Newtonian and non-Newtonian fluids etc.
Transfer Entropy
This book is a printed edition of the Special Issue "Transfer Entropy" that was published in Entropy
Fractal Signatures in the Dynamics of an Epidemiology
The recent Covid-19 pandemic threw the world into complete chaos with its rapid and devastating spread. Scientists are still trying to obtain a better understanding of the patterns of COVID-19 and trying to get a deeper understanding of mutant strains and their pathogenicity by performing genomic sequences of more samples. Fractal-based analysis provides its unique forecasting policy to reduce the spread of COVID-19, and in general, of any outbreaks. The book presents fractal and multifractal models of COVID-19 and reviews the impact of the pandemic including epidemiology, genome organization, transmission cycle, and control strategies based on mathematical models towards developing an immun...
Coupled Feedback Mechanisms in the Magnetosphere-Ionosphere System
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