Physical Hydrodynamics
2nd Edition
Published on 29. January 2015
Book
Hardback
536 pages
978-0-19-870244-3 (ISBN)
Description
This second edition of Physical Hydrodynamics is a deeply enriched version of a classical textbook on fluid dynamics. It retains the same pedagogical spirit, based on the authors' experience of teaching university students in the physical sciences, and emphasizes an experimental (inductive) approach rather than the more formal approach found in many textbooks in the field.
A new edition was necessary as contact between the mechanics and physics approaches and their communities has increased continuously over the last few decades. Today the field is more widely open to other experimental sciences: materials, environmental, life, and earth sciences, as well as the engineering sciences. Representative examples from these fields have been included where possible, while retaining a general presentation in each case. This book should be useful for researchers and engineers in these various fields.
Images have an essential place in fluid mechanics, and the illustrations in this edition have been completely revisited and widely improved. An inset of colour photographs is provided to stimulate the interest of readers. Exercises have also been added at the end of a number of chapters.
A new edition was necessary as contact between the mechanics and physics approaches and their communities has increased continuously over the last few decades. Today the field is more widely open to other experimental sciences: materials, environmental, life, and earth sciences, as well as the engineering sciences. Representative examples from these fields have been included where possible, while retaining a general presentation in each case. This book should be useful for researchers and engineers in these various fields.
Images have an essential place in fluid mechanics, and the illustrations in this edition have been completely revisited and widely improved. An inset of colour photographs is provided to stimulate the interest of readers. Exercises have also been added at the end of a number of chapters.
Reviews / Votes
This book is essential reading for all people interested in the modern study of fluids and hydrodynamics, from undergraduates to graduate research students and professors. The book provides a comprehensive and up-to-date description of the behaviour and theory of fluids with excellent examples drawn from real life that illustrate the principles. Covering a large range of topics relating the hydrodynamics observed in the real world to our mathematical descriptions, the derivations throughout are developed with a rare clarity accompanied with proofs and key explanations. Importantly for those new to the topic, the physical meaning of all terms in the mathematical description are described articulately throughout. With examples including the latest state-of-the-art knowledge of fluids and their behaviour, this book should sit on the desk of all people interested and active in hydrodynamics Benedict Rogers, University of Manchester, UKMore details
Edition
2nd Revised edition
Language
English
Place of publication
Oxford
United Kingdom
Target group
College/higher education
Edition type
Revised edition
Illustrations
316 b/w illustrations, 16pp colour plates
Dimensions
Height: 248 mm
Width: 195 mm
Thickness: 32 mm
Weight
1366 gr
ISBN-13
978-0-19-870244-3 (9780198702443)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Etienne Guyon | Jean-Pierre Hulin | Luc Petit
Physical Hydrodynamics
E-Book
01/2015
2nd Edition
OUP eBook
€64.49
Available for download
Etienne Guyon | Jean-Pierre Hulin | Luc Petit
Physical Hydrodynamics
Book
01/2015
2nd Edition
Oxford University Press
€87.00
Shipment within 15-20 days
Persons
Etienne Guyon is physicist at the PMMH Laboratory (Physics and Mechanics of Heterogeneous Media) of ESPCI (Ecole Superieure de Physique et Chimie Industrielles, Paris) and former director of Ecole Normale Superieure in Paris. His interests deal with the flow properties disordered matter and with the diffusion of science. He is a fellow of AIP and APS.
Jean-Pierre Hulin is scientist at the FAST Laboratory (Fluids, Automatics and Thermal Systems) in Paris South University. His research deals with flow and transport in fractured and porous media, with granular and suspension flows and with mixing. He has taught fluid mechanics in several engineering (ESPCI, ENSTA) and graduate schools. He is a fellow of APS.
Luc Petit is Professor at the Institute of Light and Matter of the Lyon 1 University. His research deals with the flow of complex fluids. He has thaught fluid mechanics at undergraduate and graduate level (Ecole Normale Superieure in Lyon, University of Nice, Universite of Lyon) and he is involved in the formation of teachers.
Jean-Pierre Hulin is scientist at the FAST Laboratory (Fluids, Automatics and Thermal Systems) in Paris South University. His research deals with flow and transport in fractured and porous media, with granular and suspension flows and with mixing. He has taught fluid mechanics in several engineering (ESPCI, ENSTA) and graduate schools. He is a fellow of APS.
Luc Petit is Professor at the Institute of Light and Matter of the Lyon 1 University. His research deals with the flow of complex fluids. He has thaught fluid mechanics at undergraduate and graduate level (Ecole Normale Superieure in Lyon, University of Nice, Universite of Lyon) and he is involved in the formation of teachers.
Content
1. The physics of fluids ; 2. Momentum transport under various flow conditions ; 3. Kinematics of fluids ; 4. Dynamics of viscous fluids, rheology, and parallel flows ; 5. Conservation laws ; 6. Potential flow ; 7. Vorticity, vortex dynamics, and rotating flows ; 8. Quasi-parallel flows - lubrication approximation ; 9. Flows at low Reynolds number ; 10. Coupled transport; Laminar boundary layers ; 11. Hydrodynamic instabilities ; 12. Turbulence