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200 10$aCosmic electrodynamics $eelectrodynamics and magnetic hydrodynamics of cosmic plasmas /$fGregory D. Fleishman, Igor N. Toptygin
205   $a1st ed. 2013.
210   $aNew York $cSpringer$d2013
215   $a1 online resource (729 p.)
225 1 $aAstronomy and astrophysics library
300   $aDescription based upon print version of record.
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327   $aMagnetohydrodynamics of the Cosmic Plasma -- Non-Linear MHD Waves and Discontinuities -- Instability of MHD motion and MHD turbulence -- Generation of magnetic field -- Plasma Dispersion -- Linear modes in the plasma -- Weak Turbulence and Magnetic Reconnection -- Wave-Particle Interactions -- Particle Transport -- Particle Acceleration -- Generation of linear modes by given electric current -- Microscopic Emission Processes in the Plasma -- Transport of Radiation -- Self-consistent models of astrophysical objects.
330   $aThis volume offers a deep and detailed overview of plasma behavior in diverse astrophysical conditions. The presentation is based on a solid science foundation that includes well established physical laws of electromagnetism, hydrodynamics, classical and quantum mechanics and other relevant fields of science. Qualitative ideas and descriptions are followed by quantitative derivations and estimates of key physical quantities, and the results of theories and models are confronted with modern observational data obtained from numerous international science programs. Fundamental astrophysical phenomena, such as charged particle acceleration and magnetic field generation, are presented along with spectacular phenomena, such as stellar winds (including ultra-relativistic pulsar wind), supernova explosions and evolution of its remnants, and solar flares.
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200 10$aBiology and Sustainable Development Goals $eApplications of Mathematical Methods /$fedited by A. A. Elsadany, Waleed Adel, Yassine Sabbar
205   $a1st ed. 2025.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2025.
215   $a1 online resource (IX, 384 p. 98 illus., 94 illus. in color.)
225 1 $aMathematics for Sustainable Developments,$x3004-9024
311 08$a981-9630-93-2 
327   $aStudying the Evolution of Tuberculosis: An Optimal Control Analysis of a Reaction?Diffusion Model -- COVID-19 Transmission Model: Analysis and Multiple Control ?Strategies -- A Modified Lax?Wendroff Scheme for Constructing a ?Barycentric Interpolation Approximation of Interface Solutions -- Fractional Holling Type III Tri-Species Dynamics: Dual Fear, Prey ?Refuge, Intra- and Inter-Species Competitions -- Internet of Things (IoT)-Based Sustainable Agriculture: A Smart Irrigation System Using Embedded System and Web Sockets -- Mathematical Models and Methods to Real-Life Problems with Examples -- The Awareness Impact on a Delayed Stochastic Epidemic Model with Logistic Growth and Saturated Incidence -- Optimal Control of a Stochastic SVIR Model with Logistic Growth and Saturated Incidence Function -- Ergodic Properties of a Stochastic SEIS Epidemic Model with Logistic Birth and ?Saturated Incidence -- Investigating the Nonlinear Behavior of a Predator?Prey Model: ?A Bifurcation Analysis Approach -- A Mathematical Model for the Impacts of Vaccination and Quarantine on the Dynamics of Covid-19 Pandemic: Deterministic and Stochastic Analysis -- Bioheat Transfer: A Theoretical ?Model Development Study -- Stochastic Dynamical Analysis for a Delayed SIQS Infectious Disease Model with ?Lévy Jumps and Media Coverage -- On Global Convergence of Single-Step Simultaneous Scheme for Nonlinear Bagley-?Torvik Fractional Differential Equation -- Artificial Neural Network Based Single-Step Method for Solving Biomedical ?Engineering Application -- Dynamics on Stationary Distribution and Probability Density Function of a (2n + 2) Multi-strain Stochastic Epidemic Model -- Deep Learning Approach for Micromagnetism Modeling -- Global Dynamics of a Fractional-order Covid-19 Epidemic Model with a Nonlinear ?Incidence Rate.
330   $aThis edited book provides a comprehensive framework for the integration of mathematical methodologies into biological research, emphasizing applications that directly address topics related to SDG 3 (Good Health and Well Being) and SDG 6 (Clean Water and Sanitation). From the mathematical modeling of infectious diseases to the design of smart agricultural systems, each chapter presents key global issues where mathematical analysis is a powerful tool for driving progress. This work emphasizes the importance of mathematical models in predicting outcomes, optimizing interventions and understanding the dynamics of complex biological systems. The central theme of the book is the application of mathematical methods, ranging from deterministic models, stochastic processes, fractional calculus and machine learning algorithms to biological problems, framed in the context of sustainability. Each chapter is crafted to showcase how mathematical models not only enhance our understanding of biological phenomena but also play a pivotal role in developing solutions to global issues such as pandemics, environmental degradation and resource management.
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606   $aPopulation biology
606   $aEcology
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