Mechanics of Materials 8th Edition
James M. Gere | Barry J. Goodno
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MECHANICS OF MATERIALS 9th Edition
Barry J. Goodno | James M. Gere
ISBN-13: 9781337093347 | ISBN-10: 1337093343
© 2018 | Dec 2016 |  1152  Pages
Previous Editions: 2013

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Give students a rigorous, complete, and integrated treatment of the mechanics of materials -- an essential subject in mechanical, civil, and structural engineering. This leading text, Goodno/Gere’s MECHANICS OF MATERIALS, 9E, examines the analysis and design of structural members subjected to tension, compression, torsion, and bending -- laying the foundation for further study.



  • 1. Tension, Compression, and Shear
    Introduction to Mechanics of Materials. Problem-Solving Approach. Statics Review. Normal Stress and Strain. Mechanical Properties of Materials. Elasticity, Plasticity, and Creep. Linear Elasticity, Hooke’s Law, and Poisson’s Ratio. Shear Stress and Strain. Allowable Stresses and Allowable Loads. Design for Axial Loads and Direct Shear.
    2. Axially Loaded Members.
    Introduction. Changes in Lengths of Axially Loaded Members. Changes in Lengths under Nonuniform Conditions. Statically Indeterminate Structures. Thermal Effects, Misfits, and Prestrains. Stresses on Inclined Sections. Strain Energy. Impact Loading. Repeated Loading and Fatigue. Stress Concentrations. Nonlinear Behavior. Elastoplastic Analysis
    3. Torsion.
    Introduction. Torsional Deformations of a Circular Bar. Circular Bars of Linearly Elastic Materials. Nonuni-form Torsion. Stresses and Strains in Pure Shear. Relationship Between Moduli of Elasticity E and G. Trans-mission of Power by Circular Shafts. Statically Indeterminate Torsional Members. Strain Energy in Torsion and Pure Shear. Torsion of Noncircular Prismatic Shafts. Thin-Walled Tubes. Stress Concentrations in Tor-sion.
    4. Shear Forces and Bending Moments.
    Introduction. Types of Beams, Loads, and Reactions. Shear Forces and Bending Moments. Relationships Among Loads, Shear Forces, and Bending Moments. Shear-Force and Bending-Moment Diagrams.
    5. Stresses in Beams (Basic Topics).
    Introduction. Pure Bending and Nonuniform Bending. Curvature of a Beam. Longitudinal Strains in Beams. Normal Stress in Beams (Linearly Elastic Materials). Design of Beams for Bending Stresses. Nonprismatic Beams. Shear Stresses in Beams of Rectangular Cross Section. Shear Stresses in Beams of Circular Cross Section. Shear Stresses in the Webs of Beams with Flanges. Built-Up Beams and Shear Flow. Beams with Axial Loads. Stress Concentrations in Bending
    6. Stresses in Beams (Advanced Topics).
    Introduction. Composite Beams. Transformed-Section Method. Doubly Symmetric Beams with Inclined Loads. Bending of Unsymmetric Beams. The Shear-Center Concept. Shear Stresses in Beams of Thin-Walled Open Cross Sections. Shear Stresses in Wide-Flange Beams. Shear Centers of Thin-Walled Open Sections. Elastoplastic Bending.
    7. Analysis of Stress and Strain.
    Introduction. Plane Stress. Principal Stresses and Maximum Shear Stresses. Mohr’s Circle for Plane Stress. Hooke’s Law for Plane Stress. Triaxial Stress. Plane Strain.
    8. Applications of Plane Stress (Pressure Vessels, Beams, and Combined Loadings).
    Introduction. Spherical Pressure Vessels. Cylindrical Pressure Vessels. Maximum Stresses in Beams. Combined Loadings.
    9. Deflections of Beams.
    Introduction. Differential Equations of the Deflection Curve. Deflections by Integration of the Bending-Moment Equation. Deflections by Integration of the Shear-Force and Load Equations. Method of Superposition. Moment-Area Method. Nonprismatic Beams. Strain Energy of Bending. Castigliano’s Theorem. Deflections Produced by Impact. Temperature Effects
    10. Statically Indeterminate Beams.
    Introduction. Types of Statically Indeterminate Beams. Analysis by the Differential Equations of the Deflection Curve. Method of Superposition. Temperature Effects. Longitudinal Displacements at the Ends of a Beam.
    11. Columns.
    Introduction. Buckling and Stability. Columns with Pinned Ends. Columns with Other Support Conditions. Columns with Eccentric Axial Loads. The Secant Formula for Columns. Elastic and Inelastic Column Behavior. Inelastic Buckling. Design Formulas for Columns.
    References and Historical Notes.
    Appendix A: Systems of Units and Conversion Factors.
    Appendix B: Problem Solving.
    Appendix C: Mathematical Formulas.
    Appendix D: Review of Centroids and Moments Of Inertia.
    Appendix E: Properties Of Plane Areas.
    Appendix F: Properties of Structural-Steel Shapes.
    Appendix G: Properties of Structural Lumber.
    Appendix H: Deflections and Slopes of Beams.
    Appendix I: Properties of Materials.

    • MORE THAN 1,200 MULTI-PART PROBLEMS ARE IDEAL FOR HOMEWORK ASSIGNMENTS AND CLASSROOM DISCUSSIONS. The exercises are arranged in order of difficulty and placed at the end of each chapter, making them easy to locate without disrupting the chapter’s subject matter. Problems are divided by sections for your convenience.
    • REALISTIC EXAMPLES ILLUSTRATE THE THEORETICAL CONCEPTS. Your students clearly see show how the concepts they are learning apply in practical situations. Photographs with accompanying simplified diagrams show actual engineering structures or components to reinforce the connection between theory and application.
    • EXAMPLES AND PROBLEMS USE BOTH SI AND USCS UNITS. The authors incorporate both the International System of Units (SI) and the U.S. Customary System (USCS) throughout the examples and problems, allowing students to gain proficiency using both systems.
    • PHOTOGRAPHS AND ILLUSTRATIONS EMPHASIZE PRACTICAL ENGINEERING APPLICATIONS. Students clearly see the importance of the subject matter as photos and state-of-the-art illustrations depict a broad range of applications in a variety of engineering disciplines.
    • A PROVEN HOMEWORK MANAGEMENT SYSTEM PROVIDES FLEXIBILITY AND CONTROL. With more than 1,200 well organized end-of-chapter problems that progress from basic to more complex challenges, you can easily offer your students meaningful practice with more control than other books. Full solutions are presented in the Instructor Solutions Manual for your convenience.
    • CLEAR AND ENGAGING EXPLANATIONS FURTHER CLARIFY CONCEPTS. This edition includes a wealth of interesting, current, and student-friendly examples to help your students thoroughly explore both the theories and applications within mechanics of materials.
    • ALL PROBLEMS OFFER ANSWERS AND DETAILED SOLUTIONS. To assist your students in learning and study, answers for problems are located in the back of the book while detailed solutions appear in the Instructor’s Solutions Manual.
    • EACH CHAPTER CONCLUDES WITH A DETAILED SUMMARY AND REVIEW. These helpful summaries and review sections highlight all of the important concepts and formulas in the chapter. Students can use them as valuable study aids to prepare for mid-term and final examinations.
    • BOOK OFFERS THE BEST FE EXAM PREPARATION IN THE MARKET. An invaluable appendix includes more than 150 problems typical in type and format to those found on the FE (Fundamentals of Engineering) Examination to assist students in preparing for success on the exam.
    • FREE BODY DIAGRAMS REINFORCE STUDENT UNDERSTANDING. These diagrams appear throughout the book to ensure comprehension of fundamental concepts from statics, which is a prerequisite for this course.
    • BOOK OFFERS UNMATCHED CLARITY AND ACCURACY YOU CAN TRUST. The author team has invested significant effort in designing, checking, and proofreading both the explanatory text and all supporting examples and problems.
    • CONCISE CHAPTER OBJECTIVES INTRODUCE KEY LEARNING GOALS. These brief Objectives begin each chapter and direct students’ attention to the chapter’s most important concepts and skills.
    • UPDATED EXAMPLES THROUGHOUT DEMONSTRATE THE NEW FOUR-STEP PROBLEM-SOLVING APPROACH. This major feature teaches students how to systematically analyze, dissect, and solve structural design problems as well as evaluate solutions to ensure they are reasonable and consistent with solutions to similar problems.
    • NEW AND UPDATED EXAMPLE PROBLEMS, PHOTOS AND ILLUSTRATIONS ADD CLARITY. Even more state-of-the-art graphics and photographs relate the theory to real world scenarios so that students can see real world problems alongside simplified models and diagrams for its analysis. These graphics also heighten student interest in the material.
    • NEW END-OF-CHAPTER PROBLEMS OFFER OPTIONS FOR HOMEWORK ASSIGNMENTS. This edition, known for its accuracy and thorough presentation, now offers many additional problems to reinforce the concepts and skills students are learning.
    • INTRODUCTORY PROBLEMS BEGIN EACH SECTION. These new problems now begin the sections in each chapter and are followed by representative problems arranged in order of increasing difficulty. Sections also include advanced and computer problems when relevant.
  • “There is nice breadth and depth in the content and the problems, with a nice combination of theoretical and practical content.”

For more information about these supplements, or to obtain them, contact your Learning Consultant

  • Companion Website for Goodno/Gere’s Mechanics of Materials
    ISBN-10: 1337093483 | ISBN-13:9781337093484
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    Companion Website
    Instructor's Solution Manual for Goodno/Gere's Mechanics of Materials, 9th
    ISBN-10: 1337093467 | ISBN-13:9781337093460
    List Price = 14.95
    Instructor's Solution Manual
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  • Barry John Goodno is Professor of Civil and Environmental Engineering at Georgia Institute of Technology. He joined the Georgia Tech faculty in 1974. He was an Evans Scholar and received a B.S. in Civil Engineering from the University of Wisconsin, Madison, Wisconsin, in 1970. He received M.S. and Ph.D. degrees in Structural Engineering from Stanford University, Stanford, California, in 1971 and 1975, respectively. He holds a professional engineering license (PE) in Georgia, is a Distinguished Member of ASCE and an Inaugural Fellow of SEI, and has held numerous leadership positions within ASCE. He is a member of the Engineering Mechanics Institute (EMI) of ASCE and is a past president of the ASCE Structural Engineering Institute (SEI) Board of Governors. He is past-chair of the ASCE-SEI Technical Activities Division (TAD) Executive Committee, and past-chair of the ASCE-SEI Awards Committee. In 2002, Dr. Goodno received the SEI Dennis L. Tewksbury Award for outstanding service to ASCE-SEI. He received the departmental award for Leadership in Use of Technology in 2013 for his pioneering use of lecture capture technologies in undergraduate statics and mechanics of materials courses at Georgia Tech. He is a member of the Earthquake Engineering Research Institute (EERI) and has held several leadership positions within the NSF-funded Mid-America Earthquake Center (MAE), directing the MAE Memphis Test Bed Project. Dr. Goodno has carried out research, taught graduate courses and published extensively in the areas of earthquake engineering and structural dynamics during his tenure at Georgia Tech.

    Dr. Goodno is an active cyclist, retired soccer coach and referee, and a retired marathon runner. Like co-author and mentor James Gere, he has completed numerous marathons including qualifying for and running the Boston Marathon in 1987.

    James M. Gere (1925-2008) earned his undergraduate and master’s degrees in Civil Engineering from the Rensselaer Polytechnic Institute, where he worked as instructor and Research Associate. He was awarded one of the first NSF Fellowships and studied at Stanford, where he earned his Ph.D. He joined the faculty in Civil Engineering, beginning a 34-year career of engaging his students in mechanics, structural and earthquake engineering. He served as Department Chair and Associate Dean of Engineering and co-founded the John A. Blume Earthquake Engineering Center at Stanford. Dr. Gere also founded the Stanford Committee on Earthquake Preparedness. He was one of the first foreigners invited to study the earthquake-devastated city of Tangshan, China. Dr. Gere retired in 1988 but continued to be an active, valuable member of the Stanford community.

    Dr. Gere was known for his cheerful personality, athleticism, and skill as an educator. He authored nine texts on engineering subjects starting with Mechanics of Materials, a text that was inspired by his teacher and mentor Stephan P. Timoshenko. His other well-known textbooks, used in engineering courses around the world, include: Theory of Elastic Stability, co-authored with S. Timoshenko; Matrix Analysis of Framed Structures and Matrix Algebra for Engineers, both co-authored with W. Weaver; Moment Distribution; Earthquake Tables: Structural and Construction Design Manual, co-authored with H. Krawinkler; and Terra Non Firma: Understanding and Preparing for Earthquakes, co-authored with H. Shah.

    In 1986 he hiked to the base camp of Mount Everest, saving the life of a companion on the trip. An avid runner, Dr. Gere completed the Boston Marathon at age 48 in a time of 3:13. Dr. Gere is remembered as a considerate and loving man whose upbeat humor always made aspects of daily life and work easier.