Those sections relate to centroids and moments of inertia of plane areas and deflection of beams by integration. Marked with an asterisk, this material can be omitted without a loss of continuity. It is also useful for self-study and can serve as a reference for courses in materials, materials testing, machine design, and structural design. Several new features appear in this edition, including a list of objectives at the beginning of each chapter to help students identify specific skills they should acquire from the material covered.
Appropriate chapter sections include a comprehensive roster of professional organizations including addresses, telephone numbers, and Web sites for professors and students who want more information on material properties or recommended practices related to manufacturing and construction. Other sections include procedures for using mathematical technology graphing calculators, BASIC programs, and software spreadsheets to facilitate calculations involved in solving simultaneous equations and determining beam deflections.
Aside from this additional material, the general plan of the book is unchanged. Care has been taken to present the various topics with clarity in a simple and direct fashion and to avoid information overload. To that end, more than examples illustrate the principles involved. Chapters 1 through 9 provide coverage of statics, while strength of materials is covered in Chapters 10 through The chapters on statics begin with a review of basic mathematics.
The graphical method, together with trigonometric formulas and the component method, are employed to solve concurrent force problems. A discussion of the resultant and equilibrium of nonconcurrent forces follows, with special emphasis on the theorem of moments. Then the force analysis of structures and machines and concurrent and nonconcurrent force systems in space is presented.
The chapters on statics conclude with friction, centers of gravity, centroids, and moment of inertia of areas. The chapters on strength of materials begin with the study of stress and strain in axially loaded members. This is followed by discussions of shear stresses and strains in torsion members, bending and deflection of beams, combined stress using Mohr's circle, columns, and structural connections.
The text includes more than problems at various levels of difficulty for the student. Both the U. The majority of material in this book was originally written by H. Morrow, who prepared two preliminary editions for use at Nassau NY Community College from to These were followed by three editions published in , , and by Prentice Hall.
This fourth edition represents a joint collaboration between Mr. Morrow and R. James Kokernak of Rensselaer Polytechnic Institute. Special thanks to Steve Helba, Editor-in-Chief of the Technology Division at Prentice Hall, without whose direction this edition would not have been possible, and to Associate Editor Michelle Churma, who guided the project through to completion.
We would also like to acknowledge the reviewers of this text: Dr. Gordon, Rochester Institute of Technology. Users of the text are encouraged to write the authors with suggestions for improvements in future editions.
Morrow Ft. Lauderdale, FL R. Kokernak Ashburnham, MA --This text refers to an out of print or unavailable edition of this title. The book is so poorly organized and seems like it was never edited. Answers to questions are often wrong and several time I have come across questions that just direct you to a previously done question. If I wanted a choose your own adventure book I would have just asked my parents to pull out my books from when I was a kid, for free.
Bought this book for my engineering class and the examples inside of the book are great. They are really well explained and give good real world examples.
They do a good job showing you how to do the work correctly and how to solve. Glad this book was used for my class. Fun material. All statics no dynamics. Great Kinematics style Physics book for strength of materials class. Just what my husband needed for his class. Open navigation menu. Close suggestions Search Search.
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Explore Podcasts All podcasts. Difficulty Beginner Intermediate Advanced. Explore Documents. Cable analysis coverage —Demystifies an important but complex topic that is omitted from many texts. Pearson offers affordable and accessible purchase options to meet the needs of your students. Connect with us to learn more. We're sorry! We don't recognize your username or password. Please try again. The work is protected by local and international copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning.
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Harold I. Morrow Robert P. Kokernak, University of Louisiana, Lafayette. If You're an Educator Download instructor resources Additional order info. Overview Features Contents Order Overview. Description For all courses in statics and materials strength, and for courses on structural principles. Makes sure students have the knowledge they need to succeed with real materials strength responsibilities Nearly 1, student problems —includes far more problems than any other text, including problems at all levels of difficulty Gives students unparalleled hands-on practice to speed and deepen mastery Written and organized with exceptional clarity —authored by an experienced writer who has spent many years explaining complex technical topics to the general public and beginning readers Helps students master challenging concepts and climb the learning curve far more rapidly Coverage of international system of units SI and US customary system —teaches both commonly-used sets of units, and applies them equally in the problems and examples.
Prepares students to work in any environment, domestic or foregin No calculus required— supports instruction in many technical disciplines at both two-year and four-year institutions Makes statics and materials strength accessible to a far wider spectrum of students Optional calculus sections for instructors that need them —Includes optional, easy-to-identify calculus sections on centroids, moments of inertia of plane areas, and deflection of beams by integration Fully supports students in ABET and other programs that teach methods involving calculus Extensively illustrated, two-color format —Utilizes numerous illustrations from industry designed to maintain student interest and make the book more accessible Supports fast, visual learning.
New to This Edition. Expanded introductory section —Now includes powerful examples of catastrophe failures Helps students understand the life-and-death implications of statics and materials strength knowledge New! Cable analysis coverage —Demystifies an important but complex topic that is omitted from many texts Prepares students to perform common cable analysis tasks New!
Table of Contents 1. Basic Concepts 2. Resultant of Concurrent Forces in a Plane 3. Equilibrium of Concurrent Forces in a Plane 4. Resultant of Nonconcurrent Forces in a Plane 5. Equilibrium of a Rigid Body 6. Force Analysis of Structures and Machines 7. Forces in Space 8. Friction 9.
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