Search
 
Home| Join Our Mailing List| New Reviews| New Titles
Editor's Choice| Bestsellers| Textbooks| Book Series| Study Guides| E-Catalogues
  MATHEMATICS
  Applied Mathematics
General
Mathematical Finance/
Quantitative Finance
Mathematical Physics/
Theoretical Physics
Numerical & Computational
Mathematics
Probability & Statistics
Pure Mathematics
New Titles
December Bestsellers
Editor's Choice
Nobel Lectures
Textbooks
Recent Reviews
Book Series
Related Journals
  • Reviews in Mathematical Physics (RMP)
  • International Journal of Geometric Methods in Modern Physics (IJGMMP)
  • International Journal of Number Theory (IJNT)
    • Request for related catalogues     		 
      PRODUCTS
      Journals
    eBooks
    Journals Archives
    eProceedings     		 
      RESOURCES
      Print flyer
  • Full Version
  • Condensed Version
    • Recommend title
    Request for Inspection copy
    For Librarians
    For Authors
    For Booksellers
    For Translation Rights About Us
    Contact Us
    How to Order News     		 
    Bookmark and Share

    GEOMETRIC MECHANICS
    Part II: Rotating, Translating and Rolling

    by Darryl D Holm (Imperial College London, UK)

    Table of Contents (129k)
    Preface (154k)
    Chapter 1: Galileo (305k)
    Chapter 2: Newton, Lagrange and Hamilton's Treatments of the Rigid Body (607k)

    This textbook introduces the tools and language of modern geometric mechanics to advanced undergraduate and beginning graduate students in mathematics, physics, and engineering. It treats the dynamics of rotating, spinning and rolling rigid bodies from a geometric viewpoint, by formulating their solutions as coadjoint motions generated by Lie groups. The only prerequisites are linear algebra, multivariable calculus and some familiarity with Euler-Lagrange variational principles and canonical Poisson brackets in classical mechanics at the beginning undergraduate level.

    Variational calculus on tangent spaces of Lie groups is explained in the context of familiar concrete examples. Through these examples, the student develops skills in performing computational manipulations, starting from vectors and matrices, working through the theory of quaternions to understand rotations, and then transferring these skills to the computation of more abstract adjoint and coadjoint motions, Lie-Poisson Hamiltonian formulations, momentum maps and finally dynamics with nonholonomic constraints.

    The 120 Exercises and 55 Worked Answers help the student to grasp the essential aspects of the subject, and to develop proficiency in using the powerful methods of geometric mechanics. In addition, all theorems are stated and proved explicitly. The book's many examples and worked exercises make it ideal for both classroom use and self-study.
     
    Contents:
    • Galileo
    • Newton, Lagrange, Hamilton
    • Quaternions
    • Quaternionic Conjugacy
    • Special Orthogonal Group
    • The Special Euclidean Group
    • Geometric Mechanics on SE(3)
    • Heavy Top Equations
    • The Euler–Poincaré Theorem
    • Lie–Poisson Hamiltonian Form
    • Momentum Maps
    • Round Rolling Rigid Bodies
     
    Readership: Advanced undergraduate and graduate students in mathematics, physics and engineering; researchers interested in learning the basic ideas in the fields; non-experts interested in geometric mechanics, dynamics and symmetry.
     
    “Both books are very readable; the author has an easy, informal style … These two books, written by one of the masters in geometric mechanics, provide an accessible way into the subject for newcomers; they also give a unique perspective for those who are not so new.”
    Professor Peter Hydon
    UK Nonlinear News Review
     
    “It is a continuation of the elegant presentation of geometric mechanics of Volume 1.”
    Quarterly of Applied Mathematics
     
    “Students who work carefully through the material in these volumes will amass a formidable armory of mathematical techniques and will be well equipped to attack new and challenging problems in mechanics … The appendices contain a collection of valuable example problems that are suitable for both homework and enhanced coursework. There are also numerous exercises scattered throughout the text to allow readers to evaluate their progress.”
    SIAM Review
     
    “In both Parts, physical examples play an important role. There are also excellent references to recent literature as well as nice historic contexts … the Geometric Mechanics books are valuable additions to the literature on geometric mechanics and symmetry. The books are well written and pleasant to read. I can recommend anyone teaching a course on applied geometric mechanics to consider one or both books for text books or recommended reading. The books would be a good starting point for anyone interested in learning more about applied geometric mechanics and symmetry. The many references to recent literature put the reader in a good position to find out about the latest research in this areaw.”
    Journal of Geometric Mechanics
     
    “This two-volume book fills a niche in the geometric mechanics literature at the crossroads between mathematics and physics/engineering and between elementary and advanced texts on theoretical mechanics.”
    Mathematical Reviews
     
    312pp    Pub. date: Apr 2008  
    ISBN:   978-1-84816-155-9
    1-84816-155-7     		   US$76 / £43

     

    312pp    Pub. date: Apr 2008  
    ISBN:   978-1-84816-156-6(pbk)
    1-84816-156-5(pbk)     		   US$36 / £17

     

     
    Imperial College Press  |  Global Publishing  |  Asia-Pacific Biotech News  |  Innovation Magazine
    Labcreations Co  |  Meeting Matters  |  National Academies Press

    Copyright © 2012 World Scientific Publishing Co. All rights reserved.
    Updated on 13 February 2012