Book Details
Format
Hardcover
Pages
484
Language
English
Published
Sep 7, 2016
Publisher
Cambridge University Press
Edition
1
ISBN-10
1107019664
ISBN-13
9781107019669
Description
This work provides a comprehensive exploration of the mathematical foundations underlying the three-dimensional Navier–Stokes equations. It aims to bridge the gap between rigorous mathematical theory and practical application, making complex concepts more accessible to readers with varying levels of expertise.
The authors meticulously unravel the intricacies of fluid dynamics through a careful examination of the equations that describe the motion of incompressible fluids. Readers are guided through a structured approach that emphasizes both the theoretical framework and its implications in real-world scenarios, making this volume a valuable resource for students and researchers alike.
Numerous examples and problems enhance understanding, allowing readers to engage with the material actively. The text also incorporates a historical context, tracing the development of ideas that shape the current mathematical landscape, which enriches the reader’s appreciation for the subject.
Overall, this volume stands out as an essential reference for those looking to deepen their understanding of the Navier–Stokes equations and the fascinating world of fluid mechanics.
The authors meticulously unravel the intricacies of fluid dynamics through a careful examination of the equations that describe the motion of incompressible fluids. Readers are guided through a structured approach that emphasizes both the theoretical framework and its implications in real-world scenarios, making this volume a valuable resource for students and researchers alike.
Numerous examples and problems enhance understanding, allowing readers to engage with the material actively. The text also incorporates a historical context, tracing the development of ideas that shape the current mathematical landscape, which enriches the reader’s appreciation for the subject.
Overall, this volume stands out as an essential reference for those looking to deepen their understanding of the Navier–Stokes equations and the fascinating world of fluid mechanics.