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  • Textbook
  • © 2006

Intermediate Dynamics

A Linear Algebraic Approach

Authors:

Editors:

  1. R. A. Howland

    1. University of Notre Dame, UK

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  1. Frederick F. Ling

    1. Department of Mechanical Engineering, The University of Texas at Austin, Austin, USA

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    You can also search for this editor in PubMed   Google Scholar

  2. William Howard Hart

    1. Department of Mechanical Engineering, Aeronautical Engineering and Mechanics, Rensselaer Polytechnic Institute, Troy, USA

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    You can also search for this editor in PubMed   Google Scholar

  • Complete, rigorous review of Linear Algebra, from Vector Spaces to Normal Forms
  • Emphasis on more classical Newtonian treatment (favored by Engineers) of rigid bodies, and more modern in greater reliance on Linear Algebra to get inertia matrix and deal with machines
  • Develops Analytical Dynamics to allow the introduction of friction
  • Includes supplementary material: sn.pub/extras

Part of the book series: Mechanical Engineering Series (MES)

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Table of contents (16 chapters)

  1. Front Matter

    Pages i-xix
    PDF

  2. Linear Algebra

    1. Prologue

      Pages 3-4

    2. Vector Spaces

      Pages 5-40

    5. Epilogue

      Pages 171-172

  3. 3-D Rigid Body Dynamics

    1. Prologue

      Pages 175-176

    2. Kinematics

      Pages 177-252

    3. Kinetics

      Pages 253-379

    4. Epilogue

      Pages 381-381

  4. Analytical Dynamics

    1. Prologue

      Pages 385-388

    5. Integrals of Motion

      Pages 471-481

    6. Hamiltonian Dynamics

      Pages 483-531

    7. Epilogue

      Pages 533-534

  5. Back Matter

    Pages 535-540
    PDF
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About this book

As the name implies, Intermediate Dynamics: A Linear Algebraic Approach views "intermediate dynamics"--Newtonian 3-D rigid body dynamics and analytical mechanics--from the perspective of the mathematical field. This is particularly useful in the former: the inertia matrix can be determined through simple translation (via the Parallel Axis Theorem) and rotation of axes using rotation matrices. The inertia matrix can then be determined for simple bodies from tabulated moments of inertia in the principal axes; even for bodies whose moments of inertia can be found only numerically, this procedure allows the inertia tensor to be expressed in arbitrary axes--something particularly important in the analysis of machines, where different bodies' principal axes are virtually never parallel. To understand these principal axes (in which the real, symmetric inertia tensor assumes a diagonalized "normal form"), virtually all of Linear Algebra comes into play. Thus the mathematical field is first reviewed in a rigorous, but easy-to-visualize manner. 3-D rigid body dynamics then become a mere application of the mathematics. Finally analytical mechanics--both Lagrangian and Hamiltonian formulations--is developed, where linear algebra becomes central in linear independence of the coordinate differentials, as well as in determination of the conjugate momenta.

Features include:

- A general, uniform approach applicable to "machines" as well as single rigid bodies

- Complete proofs of all mathematical material. Similarly, there are over 100 detailed examples giving not only the results, but all intermediate calculations

- An emphasis on integrals of the motion in the Newtonian dynamics

- Development of the Analytical Mechanics based on Virtual Work rather than Variational Calculus, both making the presentation more economical conceptually, and the resulting principles able to treat both conservative and non-conservative systems.

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Keywords

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Reviews

From the reviews:

"Howland ( Univ. Of Notre Dame) has prepared a mathematical treatment of mechanics/dynamics in three dimensions with an emphasis on linear-algebraic details. The book is well written, showing a real appreciation for the underlying mathematics. ... Summing Up: Recommended. Upper-division undergraduates through professionals." (J. D. Fehribach, Choice, Vol. 43 (10), June, 2006)

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Authors, Editors and Affiliations

  • Department of Mechanical Engineering, The University of Texas at Austin, Austin, USA

    Frederick F. Ling

  • Department of Mechanical Engineering, Aeronautical Engineering and Mechanics, Rensselaer Polytechnic Institute, Troy, USA

    William Howard Hart

  • University of Notre Dame, UK

    R. A. Howland

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Bibliographic Information

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Buy it now

eBook USD 39.99
Price excludes VAT (USA)
  • Available as PDF
  • Read on any device
  • Instant download
  • Own it forever
Softcover Book USD 54.99
Price excludes VAT (USA)
  • Compact, lightweight edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info
Hardcover Book USD 54.99
Price excludes VAT (USA)
  • Durable hardcover edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info

Tax calculation will be finalised at checkout

Other ways to access

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