Intermediate Dynamics for Engineers

A Unified Treatment of Newton-Euler and Lagrangian Mechanics

Oliver M. O'Reilly (Autor)

Buch | Hardcover

408 Seiten

2008
Cambridge University Press (Verlag)
978-0-521-87483-0 (ISBN)

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Intermediate Dynamics for Engineers

Oliver M. O'Reilly

2020

Buch | Hardcover

109, ⁹⁵ €

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This book fits two full-length courses in advanced engineering dynamics. It contains two overlapping tracks. During the first course a Newton-Euler approach is used, followed by a Lagrangian approach. The text includes structured chapter exercises as a study aid. Solutions can be performed in simulation using MATLAB® or Mathematica®.

This book has sufficient material for two semester-length courses in intermediate engineering dynamics. For the first course, a Newton-Euler approach is used, followed by a Lagrangrian approach in the second. Using some ideas from differential geometry, the equivalence of these two approaches is illuminated throughout the text. In addition, this book contains comprehensive treatments of the kinematics and dynamics of particles and rigid bodies. The subject matter is illuminated by numerous, highly structured examples and exercises featuring a wide range of applications and numerical simulations.

Oliver M. O'Reilly is a Professor of Mechanical Engineering at the University of California, Berkeley. His research interests lie in continuum mechanics and nonlinear dynamics, specifically in the dynamics of rigid bodies and particles, Cosserat and directed continua, dynamics of rods, history of mechanics, and vehicle dynamics. O'Reilly is the author of numerous archival publications and of Engineering Dynamics: A Primer.

Part I. Dynamics of a Single Particle: 1. Kinematics of a particle; 2. Kinetics of a particle; 3. Lagrange's equations of motion for a single particle; Part II. Dynamics of a System of Particles: 4. The equations of motion for a system of particles; 5. Dynamics of systems of particles; Part III. Dynamics of a Single Rigid Body: 6. Rotation tensors; 7. Kinematics of rigid bodies; 8. Constraints on and potentials for rigid bodies; 9. Kinetics of a rigid body; 10. Lagrange's equations of motion for a single rigid body; Part IV. Systems of Rigid Bodies: 11. Introduction to multibody systems; Appendix 1. Background on tensors; Bibliography; Index.

Zusatzinfo	28 Halftones, unspecified; 83 Line drawings, unspecified
Verlagsort	Cambridge
Sprache	englisch
Maße	182 x 260 mm
Gewicht	990 g
Themenwelt	Technik ► Maschinenbau
ISBN-10	0-521-87483-1 / 0521874831
ISBN-13	978-0-521-87483-0 / 9780521874830
Zustand	Neuware