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The Resource Introduction to structural dynamics and aeroelasticity, Dewey H. Hodges, G. Alvin Pierce

Introduction to structural dynamics and aeroelasticity, Dewey H. Hodges, G. Alvin Pierce

Label
Introduction to structural dynamics and aeroelasticity
Title
Introduction to structural dynamics and aeroelasticity
Statement of responsibility
Dewey H. Hodges, G. Alvin Pierce
Creator
Contributor
Subject
Language
eng
Summary
"This text meets the need for an up-to-date treatment of structural dynamics and aeroelasticity for advanced undergraduate or beginning graduate aerospace engineering students."--BOOK JACKET
Cataloging source
DLC
http://library.link/vocab/creatorName
Hodges, Dewey H
Illustrations
illustrations
Index
index present
Literary form
non fiction
http://library.link/vocab/relatedWorkOrContributorName
Pierce, G. Alvin
Series statement
Cambridge aerospace series
Series volume
15
http://library.link/vocab/subjectName
  • Airframes
  • Structural design
  • Space vehicles
  • Aeroelasticity
Label
Introduction to structural dynamics and aeroelasticity, Dewey H. Hodges, G. Alvin Pierce
Instantiates
Publication
Bibliography note
Includes bibliographical references (p. 164-165) and index
Contents
  • Foreword
  • 1.
  • Introduction.
  • p. 1
  • 2.
  • Structural Dynamics.
  • p. 5
  • 2.1.
  • Uniform String Dynamics.
  • p. 6
  • 2.2.
  • Uniform Beam Torsional Dynamics.
  • p. 30
  • 2.3.
  • Uniform Beam Bending Dynamics.
  • p. 41
  • 2.4.
  • Approximate Solution Techniques.
  • p. 59
  • 3.
  • Static Aeroelasticity.
  • p. 80
  • 3.1.
  • Wind Tunnel Models.
  • p. 80
  • 3.2.
  • Uniform Lifting Surface.
  • p. 89
  • 4.
  • Aeroelastic Flutter.
  • p. 114
  • 4.1.
  • Stability Characteristics.
  • p. 115
  • 4.2.
  • Aeroelastic Analysis of a Typical Section.
  • p. 119
  • 4.3.
  • Classical Flutter Analysis.
  • p. 124
  • 4.4.
  • Engineering Solutions for Flutter.
  • p. 130
  • 4.5.
  • Unsteady Aerodynamics.
  • p. 136
  • 4.6.
  • Flutter Prediction via Assumed Modes.
  • p. 143
  • 4.7.
  • Flutter Boundary Characteristics.
  • p. 147
  • 4.8.
  • Epilogue.
  • p. 151
  • App.
  • Lagrange's Equation.
  • p. 155
  • References.
  • p. 164
  • Index.
  • p. 167
Control code
990521806984
Dimensions
27 cm.
Extent
xii, 170 p.
Isbn
9780521806985
Lccn
2001052552
Other physical details
ill.
Label
Introduction to structural dynamics and aeroelasticity, Dewey H. Hodges, G. Alvin Pierce
Publication
Bibliography note
Includes bibliographical references (p. 164-165) and index
Contents
  • Foreword
  • 1.
  • Introduction.
  • p. 1
  • 2.
  • Structural Dynamics.
  • p. 5
  • 2.1.
  • Uniform String Dynamics.
  • p. 6
  • 2.2.
  • Uniform Beam Torsional Dynamics.
  • p. 30
  • 2.3.
  • Uniform Beam Bending Dynamics.
  • p. 41
  • 2.4.
  • Approximate Solution Techniques.
  • p. 59
  • 3.
  • Static Aeroelasticity.
  • p. 80
  • 3.1.
  • Wind Tunnel Models.
  • p. 80
  • 3.2.
  • Uniform Lifting Surface.
  • p. 89
  • 4.
  • Aeroelastic Flutter.
  • p. 114
  • 4.1.
  • Stability Characteristics.
  • p. 115
  • 4.2.
  • Aeroelastic Analysis of a Typical Section.
  • p. 119
  • 4.3.
  • Classical Flutter Analysis.
  • p. 124
  • 4.4.
  • Engineering Solutions for Flutter.
  • p. 130
  • 4.5.
  • Unsteady Aerodynamics.
  • p. 136
  • 4.6.
  • Flutter Prediction via Assumed Modes.
  • p. 143
  • 4.7.
  • Flutter Boundary Characteristics.
  • p. 147
  • 4.8.
  • Epilogue.
  • p. 151
  • App.
  • Lagrange's Equation.
  • p. 155
  • References.
  • p. 164
  • Index.
  • p. 167
Control code
990521806984
Dimensions
27 cm.
Extent
xii, 170 p.
Isbn
9780521806985
Lccn
2001052552
Other physical details
ill.

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      53.418074 -2.967913
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