This book focuses on the interplay between Eulerian and Lagrangian conservation laws for systems that admit physical motivation and originate from continuum mechanics. Ultimately, it highlights what is specific to and beneficial in the Lagrangian approach and its numerical methods. The two first chapters present a selection of well-known features of conservation laws and prepare readers for the subsequent chapters, which are dedicated to the analysis and discretization of Lagrangian systems.
The text is at the frontier of applied mathematics and scientific computing and appeals to students and researchers interested in Lagrangian-based computational fluid dynamics. It also serves as an introduction to the recent corner-based Lagrangian finite volume techniques.
The text is at the frontier of applied mathematics and scientific computing and appeals to students and researchers interested in Lagrangian-based computational fluid dynamics. It also serves as an introduction to the recent corner-based Lagrangian finite volume techniques.
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"The book is very fluently written and easily digested. ... Numerous illustrations are given to demonstrate the efficiency of the numerical methods. ... I strongly recommend this book, not only to the mathematically inclined CFD practitioner, but also as illuminating supplementary material for students learning the numerical analysis and the foundations of hyperbolic conservation laws." (Tore Flåtten, Mathematical Reviews, August, 2018)