Engineering Mechanics: Dynamics SI

 
9780131922280: Engineering Mechanics: Dynamics SI

For core introductory dynamics courses found in mechanical, civil, aeronautical, or engineering mechanics departments.

This text presents the foundations and applications of dynamics by emphasizing the importance of visual analysis of topics—especially through the use of free body diagrams. It also promotes a problem-solving approach to solving examples through its strategy, solution, and discussion format in examples. The authors further include design and computational examples that help instructors integrate these ABET 2000 requirements.

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From the Back Cover:

This text presents the foundations and applications of statics by emphasizing the importance of visual analysis of topics-especially through the use of free body diagrams. This text also promotes a problem-solving approach to solving examples through its strategy, solution, discussion format in examples. Bedford/Fowler further includes design and computational examples that help instructors integrate these ABET 2000 requirements.

FEATURES/BENEFITS

  • NEW—Strategy-Solution- Discussion—Most examples follow this format.
    • Promotes students thinking critically about the example vs. rote memorization.
  • NEW—Engineering Design—Includes "Application to Engineering" examples that provide discussions of the uses of dynamics in engineering design.
  • NEW—Emphasizes Application—Text places dynamics within the context of engineering practice by including applications from many fields of engineering.
  • NEW—Optional Student Software—Working Model-based Simulation Software specifically for Bedford/Fowler.
  • NEW—Computational Mechanics Examples—Provide optional self-contained examples designed to introduce students to the use of computers in engineering. Professors can use any programming language, or math solver of their choice.
  • NEW—Extended discussion of normal and tangential components (Ch. 2)—Includes 3D motion.
  • NEW—A revised discussion of reference frames—Throughout the text, especially in Chs. 2 and 6.
  • NEW—Expanded/improved discussion of several topics—e.g., impulsive forces, 2D rigid-body kinematics, D'Alembert's principle, and angular impulse and momentum.
  • NEW—Expanded discussion of 3D rigid body dynamics (Ch. 9)—Includes new examples and problems.
  • NEW—More than 20% new and revised chapter-end problems.

Engineering Mechanics: Dynamics, Second Edition. This book has quickly earned a place in Engineering schools across the country because it teaches engineering mechanics the way a good instructor would

Problem Solving

  • Uses a "Strategy-Solution-Discussion" problem-solving methodology that explains how to approach problems, solve them, and critically judge the results
  • Contains "Computational Mechanics" feature with examples and problems that introduce the reader to computer applications in engineering mechanics

Visualization

  • Stresses the importance of visual analysis, especially the use of free-body diagrams
  • Develops figures gradually and employs "ghosting" techniques to clarify and emphasize concepts-- emulating the way an instructor teaches

Applications

  • Places engineering mechanics within the context of engineering practice by including applications from many fields of engineering
  • Introduces design principles with the "Application to Engineering" feature using concepts developed in preceding sections of the chapter

    New Features

    Visualization

    • Provides more free-body diagrams to many of the worked examples
    • Separates most of the diagrams showing velocities, accelerations, and forces into a free-body diagram showing the forces and a kinematic diagram showing the accelerations

    Content

    • Extends the discussion of normal and tangential components in Chapter 2 to include three- dimensional motion Includes a revised discussion of reference frames throughout the text, especially in Chapters 2 and 6
    • Improves the discussion of impulsive forces in Chapter 5
    • Improves the discussion of 2D rigid-body kinematics in Chapter 6
    • Expands and improves the discussion of D'Alembert's principle in Chapter 7
    • Provides a revised and improved discussion of angular impulse and momentum in Chapter 8
    • Expands the discussion of 3D rigid body dynamics in Chapter 9 and provides new examples and problems
    • Offers several new examples throughout the text including more of the popular feature, "Application to Engineering"
    • Includes more than 20% new and revised end-of-chapter problems

    Organization

    • Presents section on Orbital Mechanics in Chapter 3

About the Author:

Anthony Bedford is Professor of Aerospace Engineering and Engineering Mechanics at the University of Texas at Austin. He received his B.S. degree at the University of Texas at Austin, his M.S. degree at the California Institute of Technology, and his Ph.D. degree at Rice University in 1967. He has industrial experience at Douglas Aircraft Company and at TRW, where he did structural dynamics and trajectory analyses for the Apollo program. He has been on the faculty of the University of Texas at Austin since 1968. He is a member of the University of Texas Academy of Distinguished Teachers and has received several teaching awards over the years.

Dr. Bedford's main professional activity has been education and research in engineering mechanics. He has been principal investigator on grants from the National Science Foundation and the Office of Naval Research, and from 1973 until 1983 was a consultant to Sandia National Laboratories, Albuquerque, New Mexico. His other books include Hamilton's Principle in Continuum Mechanics, Introduction to Elastic Wave Propagation (with D.S. Drumheller), and Mechanics of Materials (with K.M. Liechti).

Wallace T. Fowler holds the Paul D. and Betty Robertson Meek Professorship in Engineering in the Department of Aerospace Engineering and Engineering Mechanics at the University of Texas at Austin. Dr. Fowler received his B.A., M.S., and Ph.D. degrees at the University of Texas at Austin, and has been on the faculty there since 1965. During Fall 1976, he was on the staff of the United States Air Force Test Pilot School, Edwards Air Force Base, California, and in 1981-1982 he was a visiting professor at the United States Air Force Academy. Since 1991 he has been Associate Director of the Texas Space Grant Consortium.

Dr. Fowler's areas of teaching and research are dynamics, orbital mechanics, anti spacecraft mission design. He is author or coauthor of technical papers on trajectory optimization, attitude dynamics, and space mission planning and has also published papers on the theory and practice of engineering teaching. He has received numerous teaching awards including the Chancellor's Council Outstanding Teaching Award, the General Dynamics Teaching Excellence Award, the Halliburton Education Foundation Award of Excellence, the ASEE Fred Merryfleld Design Award, and the AIAA-ASEE Distinguished Aerospace Educator. Award. He is a member of the Academy of Distinguished Teachers at the University of Texas at Austin. He is a licensed professional engineer, a member of several technical societies, and a Fellow of both the American Institute of Aeronautics and Astronautics and the American Society for Engineering Education. In 2000-2001, he served as president of the American Society for Engineering Education.

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Anthony M. Bedford
Published by Pearson Academic (2005)
ISBN 10: 0131922289 ISBN 13: 9780131922280
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Book Description Pearson Academic, 2005. Paperback. Book Condition: New. Bookseller Inventory # P110131922289

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