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Applied Mechanics for Engineers, Volume 1 provides an introduction to mechanics applied to engineering. The worked examples correspond to the first year of the Ordinary National Certificate in Engineering, which are supported with theories discussed in this book. The calculations in this text have all been made with the assistance of a slide rule and it is recommended that the reader acquire a slide rule to make full use of this publication. The topics covered include forces and moments; beams, shear force, and bending moment diagrams; velocity and acceleration; friction; and work, power, and energy. The gas laws; vapors, steam-engine, and boiler; and internal combustion engines are also deliberated in this text. This volume is valuable to engineering students, as well as researchers conducting work on applied mechanics.
This Book Of Applied Mechanics Is Intended For Students Of Engineering, Taking A First Course In The Subject Of Engineering Mechanics. The Book Is Written In A Simple Style Laying Great Emphasis On The Basic Concepts And Principles Of Mechanics And Their Applications Which Are Illustrated Through A Large Number Of Examples. Each Chapter Is Preceded By The Learning Outcomes And Concludes With Review Questions And Graded Problems For Practice From Which The Reader Can Judge His Achievement Of Learning Outcomes. The Book Will Be Immensely Useful For Students Beginning A Course Of Study In Engineering Degree Or Diploma For A Better Understanding Of Basic Concepts & Principles Of 'Mechanics' And For Teachers To Plan Their Instruction For The Subject In A Systematic Way.
Modern computer simulations make stress analysis easy. As they continue to replace classical mathematical methods of analysis, these software programs require users to have a solid understanding of the fundamental principles on which they are based.Develop Intuitive Ability to Identify and Avoid Physically Meaningless PredictionsApplied Mechanics o
For courses in Applied Mechanics, Statics/Dynamics, or Introduction to Stress Analysis. Featuring a non-calculus approach, this introduction to applied mechanics text combines a straightforward, readable foundation in underlying physics principles with a consistent method of problem solving. It presents the physics principles in small elementary steps; keeps the mathematics at a reasonable level; provides an abundance of worked examples; and features problems that are as practical as possible without becoming too involved with many extraneous details. This edition features 7% more problems, an enhanced layout and design and a logical, disciplined approach that gives students a sound background in core statics and dynamics competencies.
Emphasises the power of mathematics to provide quantitative insights across the whole area of solid mechanics; accessible and comprehensive.
Applied Mechanics of Polymers: Properties, Processing, and Behavior provides readers with an overview of the properties, mechanical behaviors and modeling techniques for accurately predicting the behaviors of polymeric materials. The book starts with an introduction to polymers, covering their history, chemistry, physics, and various types and applications. In addition, it covers the general properties of polymers and the common processing and manufacturing processes involved with them. Subsequent chapters delve into specific mechanical behaviors of polymers such as linear elasticity, hyperelasticity, creep, viscoelasticity, failure, and fracture. The book concludes with chapters discussing electroactive polymers, hydrogels, and the mechanical characterization of polymers. This is a useful reference text that will benefit graduate students, postdocs, researchers, and engineers in the mechanics of materials, polymer science, mechanical engineering and material science. Additional resources related to the book can be found at polymersmechanics.com. Provides examples of real-world applications that demonstrate the use of models in designing polymer-based components Includes access to a companion site from where readers can download FEA and MATLAB code, FEA simulation files, videos and other supplemental material Features end-of-chapter summaries with design and analysis guidelines, practice problem sets based on real-life situations, and both analytical and computational examples to bridge academic and industrial applications
This book is meant for the benefit of engineering students.It covers the syllabus prescribed for thesubject of Applied Mechanics by the Institution of Engineers (India) and thevarious universities in India. The subject of Engineering Mechanics has been introduced in a simple andlogical way with exhaustive explanations. Problems have been solved in largenumbers and most of them have been taken from the A.M.I.E. and London Universityexaminations. Problems have been solved in the M.K.S. as well as F.P.S. units.In this edition the chapters on Linear Motion, Forces and Motion of Translation,Couples and Motion of Rotation, Power and Energy have been revised. Manynumericals have been added. This book contains numerous fully solved problemsbesides many new problems set for exercise.
A popular text in its first edition, Mechanics of Solids and Structures serves as a course text for the senior/graduate (fourth or fifth year) courses/modules in the mechanics of solid/advanced strength of materials, offered in aerospace, civil, engineering science, and mechanical engineering departments. Now, Mechanics of Solid and Structure, Second Edition presents the latest developments in computational methods that have revolutionized the field, while retaining all of the basic principles and foundational information needed for mastering advanced engineering mechanics. Key changes to the second edition include full-color illustrations throughout, web-based computational material, and the addition of a new chapter on the energy methods of structural mechanics. Using authoritative, yet accessible language, the authors explain the construction of expressions for both total potential energy and complementary potential energy associated with structures. They explore how the principles of minimal total potential energy and complementary energy provide the means to obtain governing equations of the structure, as well as a means to determine point forces and displacements with ease using Castigliano’s Theorems I and II. The material presented in this chapter also provides a deeper understanding of the finite element method, the most popular method for solving structural mechanics problems. Integrating computer techniques and programs into the body of the text, all chapters offer exercise problems for further understanding. Several appendices provide examples, answers to select problems, and opportunities for investigation into complementary topics. Listings of computer programs discussed are available on the CRC Press website.