Applied Statics and Strength of Materials
- Book Review,
by Leonard Spiegel
From Book News, Inc.
New textbook for students of engineering technology at the junior college level. Assumes no calculus. Annotation copyright Book News, Inc. Portland, Or.
Book Description
Focusing on the fundamentals of material statics and strength, this book presents a non-Calculus-based, elementary, analytical, and practical approach, with example problems that follow the explanation of theory. The object of the book is to provide users with the necessary mechanics background to relate to the many fields of engineering technology—e.g., civil, mechanical, construction, architectural, industrial, and manufacturing. This comprehensive book covers the fundamentals of statics, coplanar force systems, structures, friction, gravity, inertia, stresses, properties of materials, torsion, shear and bending, beams, columns, connections, and pressure vessels. For use as a reference work for civil engineers, mechanical engineers, construction engineers, architects, industrial engineers, and manufacturing engineers.
The publisher, Prentice-Hall Career & Technology
This text provides thorough coverage of all basic statics and strength topics in an applied, step-by-step presentation that is ideal for undergraduate engineering technology students. New coverage based on recent trends in the field and the latest standards for AISC Load and Resistance Factor Design, introduces students to this new industry standard. All material is presented at a mathematics level which does not require the use of calculus.
From the Back Cover
Focusing on mastery of the basics, Applied Statics and Strength of Materials, Fourth Edition, presents a non-calculus based elementary, analytical, and practical approach to the principles and physical concepts of statics and strength of materials. The book features a rigorous, comprehensive step-by-step problem-solving approach; an abundance of worked-out example problems and homework problems; and a focus on principles and applications for many fields of engineering technology. Features of this text include: A summary at the end of each chapter presents a thumbnail sketch of the important concepts presented in the chapter. Problems at the end of each chapter are grouped and referenced to a specific section. These problems are followed by a group of supplemental problems provided for review purposes. Generally, problems are arranged in order of increasing difficulty. Each chapter is written to introduce more complex material gradually. Design and analysis aids are included in an extensive appendix section, making the book self-contained. Both U.S. Customary and SI data are presented.
Excerpt. © Reprinted by permission. All rights reserved.
The fourth edition of Applied Statics and Strength of Materials presents an elementary, analytical, and practical approach to the principles and physical concepts of statics and strength of materials. It is written at an appropriate mathematics level for engineering technology students, using algebra, trigonometry, and analytic geometry. A knowledge of calculus is not required for understanding the text or for working the problems. The book is intended primarily for use in two-year or four-year technology programs in engineering, construction, or architecture. Much of the material has been classroom tested in our Accreditation Board for Engineering and Technology (ABET) accredited engineering technology programs as well as in our American Council for Construction Education (ACCE) accredited construction technology program. The text can also serve as a concise reference guide for undergraduates in a first Engineering Mechanics (Statics) and/or Strength of Materials course in engineering programs. Although written primarily for the technology student, it could also serve as a valuable guide for practicing technologists and technicians as well as for those preparing for state licensing exams for professional registration in engineering, architecture, or construction. The emphasis of the book is on the mastery of basic principles, since it is this mastery that leads to successful solutions of real-life problems. This emphasis is achieved through abundant worked-out examples, a logical and methodical presentation, and a topical selection geared to student needs. The problem-solving method that we emphasize is a consistent, comprehensive, step-by-step approach. The principles and applications (both examples and problems) presented are applicable to many fields of engineering technology, among them civil, mechanical, construction, architectural, industrial, and manufacturing. This fourth edition was prepared with the objective of updating the content where necessary and rearranging and revising some of the material to enhance the teaching aspects of the text. While the primary unit system remains the U.S. Customary System, metric (SI) units continue to be used throughout the text, and the examples and problems reflect a mix of the two measurement systems. The homework problem sets have some additions and some deletions, and some other problems were revised. The book includes the following features: Each chapter is written to introduce more complex material gradually. Problems are furnished at the end of each chapter and are grouped and referenced to a specific section. These are then followed by a group of supplemental problems provided for review purposes. Generally, problems are arranged in order of increasing difficulty. A summary at the end of each chapter presents a thumbnail sketch of the important concepts presented in the chapter. Useful tables of properties of areas and conversion factors for U.S. Customary-SI conversion are printed inside the covers for easy access. Most chapters contain computer problems following the section problems. These problems require students to develop computer programs to solve problems pertinent to the topics of the chapter. Any appropriate computer software may be used. The computer problems are another tool with which to reinforce students' understanding of the concepts under consideration. Answers to selected problems are provided at the back of the text. The primary unit system in this book remains the U.S. Customary system. SI, however, is fully integrated in both the text and the problems. This is a time of transition between unit systems. Much of the new construction work in the public sector (particularly in the transportation field) now uses metric (SI) measurement; full conversion to SI in the technology field in the United States is inevitable and will undoubtedly occur eventually. Technicians and technologists must be familiar with both systems. To make the book self contained, design and analysis aids are furnished in an extensive appendix section. Both U.S. Customary and SI data are presented. Calculus-based proofs are introduced in the appendices. The Instructor's Manual includes complete solutions for all the end-of-chapter problems in the text. There is sufficient material in this book for two semesters of work in statics and strength of materials. In addition, by selecting certain chapters, topics, and problems, the instructor can adapt the book to other situations, such as separate courses in statics (or mechanics) and strength of materials. Thanks are extended to many colleagues, associates, and students who with their enthusiastic encouragement, insightful comments, and constructive criticisms have helped with the input for this edition. A special word of thanks goes to James F. Limbrunner, P.E., for his contributions to the text and help with proofreading and problem sets. Also, appreciation is extended to the reviewers for this edition for their help and constructive suggestions: Elliot Colchamiro, New York City Technical College, and Dorey Diab, Stark State College. And last, my thanks to Jane Limbrunner for her support, patience, and understanding during the term of this project. George F. Limbrunner
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