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Łukaszewicz G., Kalita P. Navier-Stokes Equations: An Introduction with Applications

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Łukaszewicz G., Kalita P. Navier-Stokes Equations: An Introduction with Applications
Springer International Publishing, Switzerland, 2016. – 395 p. – ISBN-10: 3319277588
This volume is devoted to the study of the Navier–Stokes equations, providing a comprehensive reference for a range of applications: from advanced undergraduate students to engineers and professional mathematicians involved in research on fluid mechanics, dynamical systems, and mathematical modeling. Equipped with only a basic knowledge of calculus, functional analysis, and partial differential equations, the reader is introduced to the concept and applications of the Navier–Stokes equations through a series of fully self-contained chapters. Including lively illustrations that complement and elucidate the text, and a collection of exercises at the end of each chapter, this book is an indispensable, accessible, classroom-tested tool for teaching and understanding the Navier–Stokes equations.
Incompressible Navier–Stokes equations describe the dynamic motion (flow) of incompressible fluid, the unknowns being the velocity and pressure as functions of location (space) and time variables. A solution to these equations predicts the behavior of the fluid, assuming knowledge of its initial and boundary states. These equations are one of the most important models of mathematical physics: although they have been a subject of vivid research for more than 150 years, there are still many open problems due to the nature of nonlinearity present in the equations. The nonlinear convective term present in the equations leads to phenomena such as eddy flows and turbulence. In particular, the question of solution regularity for three-dimensional problem was appointed by Clay Institute as one of the Millennium Problems, the key problems in modern mathematics. The problem remains challenging and fascinating for mathematicians, and the applications of the Navier–Stokes equations range from aerodynamics (drag and lift forces), to the design of watercraft and hydroelectric power plants, to medical applications such as modeling the flow of blood in the circulatory system.
Partial Differential Equations
Ordinary Differential Equations
Dynamical Systems and Ergodic Theory
Engineering Fluid Dynamics
Introduction and Summary
Equations of Classical Hydrodynamics
Mathematical Preliminaries
Stationary Solutions of the Navier–Stokes Equations
Stationary Solutions of the Navier–Stokes Equations with Friction
Stationary Flows in Narrow Films and the Reynolds Equation
Autonomous Two-Dimensional Navier–Stokes Equations
Invariant Measures and Statistical Solutions
Global Attractors and a Lubrication Problem
Exponential Attractors in Contact Problems
Non-autonomous Navier–Stokes Equations and Pullback Attractors
Pullback Attractors and Statistical Solutions
Pullback Attractors and Shear Flows
Trajectory Attractors and Feedback Boundary Control in Contact Problems
Evolutionary Systems and the Navier–Stokes Equations
Attractors for Multivalued Processes in Contact Problems
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