Description
This authoritative reference book examines and clarifies physical assumptions implicit in continuum modelling from a molecular perspective.
About the Author
A. Ian Murdoch is Professor Emeritus of Mathematics at the University of Strathclyde, Glasgow. His work on continuum mechanics has been widely published in such journals as the Archive for Rational Mechanics and Analysis, Proceedings of the Royal Society, Journal of Elasticity, International Journal of Engineering Science, Continuum Mechanics and Thermodynamics, and the Quarterly Journal of Mechanics and Applied Mathematics. He is the co-editor of two books: Modelling Macroscopic Phenomena at Liquid Boundaries and Modelling Coupled Phenomena in Saturated Porous Materials, and author of published lecture notes: Foundations of Continuum Modelling. Dr Murdoch has taught and lectured at many distinguished mathematics and engineering schools around the world.
Reviews
'Numerous books have been written on the subject, but this book has unique features that make it somewhat different from the conventional [ones] ... the microscale viewpoints of the book are somewhat unique and may cultivate a different view of continuum models in students.' Majid Molki, Heat Transfer Engineering
'This is a very instructive book ... useful for researchers, teachers and graduate students ... numerous exercises, examples and additional comments ... are very helpful for a better understanding of the nature of the treated subjects.' Vladimir Cadez, Zentralblatt MATH
'The subject is developed carefully and rigorously. Relevant mathematical background is included in appendices. ... The volume presents a stimulating and original approach to a fundamental problem in physics and is recommended to all workers in continuum mechanics concerned with how their subject may be consistently and generally grounded in atomic theory.' Peter Holland, Contemporary Physics
Book Information
ISBN 9780521765589
Author A. Ian Murdoch
Format Hardback
Page Count 434
Imprint Cambridge University Press
Publisher Cambridge University Press
Weight(grams) 1000g
Dimensions(mm) 260mm * 182mm * 27mm