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Traditional textbooks are difficult to learn from. Solid Mechanics: Learn the basics in 18 lectures is different. With clear, concise language and easy-to-follow examples, the fundamental concepts of introductory mechanics of materials are presented in 18 short, lecture-style chapters. Each chapter contains an abundance of graphics, with concepts taught through a series of drawings integrated with short paragraphs of supporting text, aiding visual learning. Four to seven assignment problems are provided at the end of each chapter to practice the concepts that have just been covered. Detailed hand-written solutions for each of the 92 assignment/practice problems are available for download (Solution Manual for 3rd edition of Solid Mechanics: Learn the basics in 18 lectures). This textbook is ideal for new undergraduate engineering students who are learning mechanics of materials for the first time, or as a reference for more advanced engineering students or professionals who could benefit from a quick refresher. Subjects covered within the text include: average normal stress and average shear stress normal strain, shear strain, and stress-strain diagrams safety factors and axial deformation indeterminate axial loads and stress concentration torsion statically indeterminate torqued members shear and moment diagrams using the method of sections shear and moment diagrams using the graphical method bending stress bending due to off-axis moments composite beams transverse shear analyzing fasteners in built-up beams combined loading stress transformation and Mohr’s circle failure of brittle materials failure of ductile materials using the absolute maximum shear stress theory failure of ductile materials using the maximum distortion energy theory measuring stress
Detailed hand-written solutions to the 92 problems contained within the 3rd edition of Solid Mechanics: Learn the basics in 18 lectures.
Engineering Solid Mechanics bridges the gap between elementary approaches to strength of materials and more advanced, specialized versions on the subject. The book provides a basic understanding of the fundamentals of elasticity and plasticity, applies these fundamentals to solve analytically a spectrum of engineering problems, and introduces advanced topics of mechanics of materials - including fracture mechanics, creep, superplasticity, fiber reinforced composites, powder compacts, and porous solids. Text includes: stress and strain, equilibrium, and compatibility elastic stress-strain relations the elastic problem and the stress function approach to solving plane elastic problems applications of the stress function solution in Cartesian and polar coordinates Problems of elastic rods, plates, and shells through formulating a strain compatibility function as well as applying energy methods Elastic and elastic-plastic fracture mechanics Plastic and creep deformation Inelastic deformation and its applications This book presents the material in an instructive manner, suitable for individual self-study. It emphasizes analytical treatment of the subject, which is essential for handling modern numerical methods as well as assessing and creating software packages. The authors provide generous explanations, systematic derivations, and detailed discussions, supplemented by a vast variety of problems and solved examples. Primarily written for professionals and students in mechanical engineering, Engineering Solid Mechanics also serves persons in other fields of engineering, such as aerospace, civil, and material engineering.
This is a first undergraduate textbook in Solid State Physics or Condensed Matter Physics. While most textbooks on the subject are extremely dry, this book is written to be much more exciting, inspiring, and entertaining.
Introduction to Solid Mechanics: An Integrated Approach presents for the first time in one text the concepts and processes covered in statics and mechanics of materials curricula following a granular, topically integrated approach. Since the turn of the millennium, it has become common in engineering schools to combine the traditional undergraduate offerings in rigid-body statics (usually called “statics”) and deformable body mechanics (known traditionally as “strength of materials” or, more recently, “mechanics of materials”) into a single, introductory course in solid mechanics. Many textbooks for the new course sequentially meld pieces of existing, discrete books--sometimes, but not always, acknowledging the origin--into two halves covering Statics and Mechanics of Materials. In this volume, Professors Lubliner and Papadopoulos methodically combine the essentials of statics and mechanics of materials, illustrating the relationship of concepts throughout, into one "integrated" text. Introduction to Solid Mechanics: An Integrated Perspective offers a holistic treatment of the depth and breadth of solid mechanics, proceeding from first principles to applications.
It covers all the basic topics of mechanics of deformable bodies generally taught in these courses. The text presents the topics in a clear, simple, practical, logical and cogent fashion that provides the students with insights into theory as well as applications to practical problems. It uses an abundance of worked examples to impart a high level of comprehension of concepts and helps master the process of calculations, manipulations and that of making appropriate inferences. Well-labelled diagrams have been used throughout the text for a sound comprehension of the fundamentals of the subject. Most of the examples and chapter-end problems have been formulated in parametric form making them independent of units and suitable for practical applications. An extensive set of problems along with hints and answers is provided at the end of each chapter for practice. Since the book aims at covering the topics generally taught in engineering curriculum of several disciplines, an interdisciplinary approach has been followed. Some advanced topics such as thick pressure vessels, skew bending, curved members, beam-columns, etc. have also been included for the benefit of postgraduate students.
Solid mechanics is the branch of continuum mechanics that studies the behaviour of solid materials, especially their deformation under the action of forces, temperature changes, phase changes and other external and internal agents.Solid mechanics is fundamental for civil engineering, mechanical engineering and aerospace engineering. Solid mechanics extensively uses tensors to describe stresses, strains and relation between them.Solid mechanics examines the shear stress, bending stress, deformation and the failure of solid materials and structures.Solid mechanics is a vast subject because of the wide range of solid materials available and their multiple applicationsThe study of solid mechanics includes various methods to calculate the stresses and strains in structural members such as beams, columns and shafts.Solid mechanics is also known as Mechanics of solids or Mechanics of structures or Strength of materials.Our hope is that this book, through its careful explanations of concepts, practical examples and figures bridges the gap between knowledge and proper application of that knowledge.