Cengage Learning Global Engineering 2015 Mechanical Engineering Catalog by Cengage Learning Global Engineering

MECHANICAL

ENGINEERING

GLOBAL

2015

ENGINEERING 2 0 1 4

CENGAGE LEARNING U.S. Cengage Learning P.O. Box 6904 Florence, KY 41022-6904 Tel 1 800 354 9706 Fax 1 800 487 8488 Email globalengineering@cengage.com

ÂŠ 2014 Cengage Learning. ALL RIGHTS RESERVED. No part of this work covered by the copyright herein may be reproduced, transmitted, stored, or used in any form or by any means graphic, electronic, or mechanical, including but not limited to photocopying, recording, scanning, digitizing, taping, web distribution, information networks, or information storage and retrieval systems, except as permitted under Section 107 or 108 of the 1976 United States Copyright Act, without the prior written permission of the publisher.

GLOBAL ENGINEERING

LETTER FROM THE PRODUCT DIRECTOR Dear Educator,

I am pleased to present you with Cengage Learning’s 2015 Civil Engineering Catalog. As engineering educators, you shape and define the outcomes and standards of engineering education and the future of engineering itself. Cengage Learning is dedicated to providing you and your students with the most accurate and up-to-date learning materials in all areas of engineering by offering an alignment between engineering curricula and real-world engineering experiences. The results are evident in our print and digital texts, as well as online support materials including online homework and assessment, companion websites, links to learning management systems, professional case studies, PowerPoint lecture outlines, e-books for PC’s and mobile devices and much more. Cengage Learning is proud to be leading the way in providing enriched global content and products to the engineering community. With SI/ Metric converted editions of our texts, we continue to meet all global demands. I understand that students with a global perspective are essential for the 21st century engineering profession. Engineering academic programs are rapidly evolving, and there is always a call for new instructional approaches, as well as learning technologies that support enhanced content. We are especially excited to offer MindTap; a fully-online, customizable and personalized teaching experience that seamlessly combines readings, multimedia, activities, and gradable assessments, along with your content to empower and engage students. More than a digital version of the textbook, MindTap allows your students to interact with the content by making notes, highlighting, finding definitions right from the page, and students who have difficulty with reading the textbook can even have the content read out loud. Powerful analytics allow you to monitor the progress of all of your students with ease. I invite you to participate in the growth and development of our global publishing program. If you have ideas for new online courses and print texts that you would like to share, or if you are interested in learning of other ways to contribute to our program, please contact me by email or telephone. I look forward to your thoughts and insights. Sincerely, Timothy Anderson Product Director, Global Engineering Cengage Learning 20 Channel Center Street Boston, MA 02210 USA Email Timothy.Anderson@cengage.com Telephone 617.289.7824

2015

CONTACT INFORMATION

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MATERIALS SCIENCE Materials Science •

eBook

•

• •

ISBN: 1-111-98860-9, ISBN-13: 978-1-111-98860-9

Also Available in SI Units

ISBN: 1-111-98861-7, ISBN-13: 978-1-111-98861-6 Materials Science and Engineering Properties is primarily directed to mechanical, civil, and aerospace engineering students. Although the book focuses on material sciences and mechanical properties of materials, it also includes a chapter on materials selection, making it extremely useful to civil engineers. The textbook provides students with a materials science and engineering background that offers a sufficient scientific basis that engineering properties of materials can be clearly understood. The textbook uses an integrated approach to treating the engineering properties of ceramics, metals, and polymers. In addition to the introductory chapters on materials science, there are chapters on mechanical properties, how to make strong solids, mechanical properties of engineering materials, the effects of temperature and time on mechanical properties, electrochemical effects on materials including corrosion, electroprocessing, batteries, and fuel cells, fracture and fatigue, composite materials, material selection, and experimental methods in material science. In addition, the accompanying website contains the derivations of equations and advanced subjects related to the textbook as well as additional chapters on electrical, magnetic, and photonic properties of materials.

Key Features • •

•

The only introductory textbook that unifies materials science and engineering subjects using energy and entropy. Reinforcement of basic concepts, such as chemical bonding, by showing how physical properties of materials are related to the atomic electron structure, chemical bonding, defects in the material, and microstructure. Analytical techniques used in this course, such as energy minimization and the application of probability, carry over into the study of other engineering systems. Integrated treatment of metals, ceramics, and polymers. Discussion of material properties

that students regularly observe. Strength of nanostructured materials covered under strong solids. End-of-chapter material includes concept questions, Engineer in Training type questions, and homework problems and when appropriate design problems. Pedagogical elements include worked-out examples in each section, chapter goals, introductory chapter sections on what is important, and chapter summaries. Four-color figures and photographs give students a visual understanding of materials science in addition to an analytical one. Free companion website includes: advanced subjects, derivations of equations, chapters on electrical, magnetic, and photonic properties of materials; and links to videos produced by the National Science Foundation.

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-49840-2; ISBN-13: 978-1-305-49840-2 Printed Access Card ISBN: 1-305-49842-9; ISBN-13: 978-1-305-49842-6 SI Version Instant Access ISBN: 1-305-49841-0; ISBN-13: 978-1-305-49841-9 SI Version Printed Access Card ISBN: 1-305-49843-7; ISBN-13: 978-1-305-49843-3

Ancillaries

Instructor’s Solutions Manual ISBN: 1-111-98925-7, ISBN-13: 978-1-111-98925-5 SI Version Instructor’s Solution Manual ISBN: 1-111-98926-5, ISBN-13: 978-1-111-98926-2

Contents

1. Introduction 2. Atoms, Chemical Bonding, Material Structure, and Physical Properties 3. The Structure of Real Materials 4. Temperature Effects on Atom Arrangements and Atom Motion 5. Phase Transformations and Phase Diagrams 6. Introduction to Mechanical Properties 7. Making Strong Materials 8. Engineering Materials 9. Time, Temperature, and Mechanical Properties 10. Oxidation, Degradation, Corrosion, Electroprocessing, Batteries, and Fuel Cells 11. Fracture and Fatigue 12. Composite Materials 13. Materials Processing 14. Material Selection 15. Experimental Methods 16. Electrical Properties of Materials 17. Magnetic Materials 18. Photonic Materials

www.cengage.com/engineering

eBook

The Science & Engineering of Materials Seventh Edition

Donald R. Askeland, Missouri University of Science & Technology, Professor Emeritus

ISBN: 1-305-07676-1, ISBN-13: 978-1-305-07676-1

Also Available in SI Units

ISBN: 1-305-07710-5, ISBN-13: 978-1-305-07710-2 This updated seventh edition of The Science and Engineering of Materials helps engineering students develop an understanding of the relationship between structure, processing, and properties of materials. By selecting the appropriate topics from the book’s wealth of material, instructors can emphasize materials, provide a general overview, concentrate on mechanical behavior, or focus on physical properties. Because the book has more material than is needed for a one-semester course, students will also have a useful reference for subsequent courses in manufacturing, materials, design, or materials selection. Unlike other texts for the course, the book’s author team has expertise in all three classes of materials: metals, ceramics, and polymers.

New to This Edition • • • •

Learning objectives at the start of each chapter guide students in their studies. New problems at the end of each chapter for more learning practice. Chapter 15 on ceramic materials has now includes crystalline ceramics, silica and silicate compounds, and other topics of interest. Select areas have been revised for clarity and updates to the field.

Key Features • •

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Chapter Openings and Introductions give students an engaging preview of the topics and ideas to come. “Have You Ever Wondered?” sections pique student interest by relating the material covered in the chapter to its real-world application. EIT exam-oriented questions help students prepare for the Engineer in Training exam. The authors draw on their respective areas of expertise in metals, ceramics and polymers to provide a balanced approach.

MATERIALS SCIENCE General Engineering • •

Chapter summaries and glossaries of key words with definitions at the end of each chapter help students master key concepts. End-of-chapter design problems, including problems that require the use of the Knovel® online reference tool, help students develop their problem-solving skills.

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-49910-7; ISBN-13: 978-1-305-49910-2 Printed Access Card ISBN: 1-305-49911-5; ISBN-13: 978-1-305-49911-9 SI Version Instant Access ISBN: 1-305-49913-1; ISBN-13: 978-1-305-49913-3 SI Version Printed Access Card ISBN: 1-305-49915-8; ISBN-13: 978-1-305-49915-7

Ancillaries

Instructor’s Solution Manual ISBN: 1-305-07678-8, ISBN-13: 978-1-305-07678-5 SI Version Instructor’s Solutions Manual ISBN: 1-305-07685-0, ISBN-13: 978-1-305-07685-3

Contents

1. INTRODUCTION TO MATERIALS SCIENCE AND ENGINEERING: What is Materials Science and Engineering? / Classification of Materials / Functional Classification of Materials / Classification of Materials Based on Structure / Environmental and Other Effects / Materials Design and Selection 2. ATOMIC STRUCTURE THE STRUCTURE OF MATERIALS: Technological Relevance / The Structure of the Atom / The Electronic Structure of the Atom / The Periodic Table / Atomic Bonding / Binding Energy and Interatomic Spacing / The Many Forms of Carbon: Relationships Between Arrangements of Atoms and Materials Properties 3. ATOMIC AND IONIC ARRANGEMENTS: Short-Range Order versus Long-Range Order / Amorphous Materials / Lattice, Basis, Unit Cells, and Crystal Structures / Allotropic or Polymorphic Transformations / Points, Directions, and Planes in the Unit Cell / Interstitial Sites / Crystal Structures of Ionic Materials / Covalent Structures / Diffraction Techniques for Crystal Structure Analysis 4. IMPERFECTIONS IN THE ATOMIC AND IONIC ARRANGEMENTS: Point Defects / Other Point Defects / Dislocations / Significance of Dislocations / Schmid’s Law / Influence of Crystal Structure / Surface Defects / Importance of Defects 5. ATOM AND ION MOVEMENTS IN MATERIALS: Applications of Diffusion / Stability of Atoms and Ions / Mechanisms for Diffusion / Activation Energy for Diffusion / Rate of Diffusion [Fick’s First Law] / Factors Affecting Diffusion / Permeability of Polymers / Composition Profile [Fick’s Second Law] / Diffusion and Materials Processing

6. MECHANICAL PROPERTIES: PART ONE: Technological Significance / Terminology for Mechanical Properties / The Tensile Test: Use of the Stress-Strain Diagram / Properties Obtained from the Tensile Test / True Stress and True Strain / The Bend Test for Brittle Materials / Hardness of Materials / Nanoindentation / Strain Rate Effects and Impact Behavior / Properties Obtained from the Impact Test / Bulk Metallic Glasses and Their Mechanical Behavior / Mechanical Behavior at Small Length Scales / Rheology of Liquids 7. MECHANICAL PROPERTIES: PART TWO: Fracture Mechanics / The Importance of Fracture Mechanics / Microstructural Features of Fracture in Metallic Materials / Microstructural Features of Fracture in Ceramics, Glasses, and Composites / Weibull Statistics for Failure Strength Analysis / Fatigue / Results of the Fatigue Test / Application of Fatigue Testing / Creep, Stress Rupture, and Stress Corrosion / Evaluation of Creep Behavior / Use of Creep Data 8. STRAIN HARDENING AND ANNEALING: Relationship of Cold Working to the StressStrain Curve / Strain-Hardening Mechanisms / Properties versus Percent Cold Work / Microstructure, Texture Strengthening, and Residual Stresses / Characteristics of Cold Working / The Three Stages of Annealing / Control of Annealing / Annealing and Materials Processing / Hot Working 9. PRINCIPLES OF SOLIDIFICATION: Technological Significance / Nucleation / Applications of Controlled Nucleation / Growth Mechanisms / Solidification Time and Dendrite Size / Cooling Curves / Cast Structure / Solidification Defects / Casting Processes for Manufacturing Components / Continuous Casting and Ingot Casting / Directional Solidification [DS], Single Crystal Growth, and Epitaxial Growth / Solidification of Polymers and Inorganic Glasses / Joining of Metallic Materials 10. SOLID SOLUTIONS AND PHASE EQUILIBRIUM: Phases and the Phase Diagram / Solubility and Solid Solutions / Conditions for Unlimited Solid Solubility / Solid-Solution Strengthening / Isomorphous Phase Diagrams / Relationship between Properties and the Phase Diagram / Solidification of a SolidSolution Alloy / Nonequilibrium Solidification and Segregation 11. DISPERSION STRENGTHENING AND EUTECTIC PHASE DIAGRAMS: Principles and Examples of Dispersion Strengthening / Intermetallic Compounds / Phase Diagrams Containing Three- Phase Reactions / The Eutectic Phase Diagram / Strength of Eutectic Alloys / Eutectics and Materials Processing / Nonequilibrium Freezing in the Eutectic System / Nanowires and the Eutectic Phase Diagram 12. DISPERSION STRENGTHENING BY PHASE TRANSFORMATIONS AND HEAT TREATMENT: Nucleation and Growth in Solid-State Reactions / Alloys Strengthened by Exceeding the Solubility Limit / Age of Precipitation Hardening and Its Applications

/ Microstructural Evolution in Age or Precipitation Hardening / Effects of Aging Temperature and Time / Requirements for Age Hardening / Use of Age-Hardenable Alloys at High Temperatures / The Eutectoid Reaction / Controlling the Eutectoid Reaction / The Martensitic Reaction and Tempering / The Shape-Memory Alloys [SMAS] 13. Heat Treatment of Steels and Cast Irons: Designations and Classifications of Steels / Simple Heat Treatments / Isothermal Heat Treatments / Quench and Temper Heat Treatments / Effect of Alloying Elements / Application of Hardenability / Specialty Steels / Surface Treatment

eBook

Essentials of Materials Science and Engineering Third Edition

ISBN: 1-111-57685-8 ISBN-13: 978-1-111-57685-1

Also Available in SI Units

ISBN: 1-111-57686-6 ISBN-13: 978-1-111-57686-8 This text provides students with a solid understanding of the relationship between the structure, processing, and properties of materials. Authors Askeland and Wright present the fundamental concepts of atomic structure and the behavior of materials and clearly link them to the “materials” issues that students will have to deal with when they enter the industry or graduate school (e.g. design of structures, selection of materials, or materials failures). Fundamental concepts are linked to practical applications, emphasizing the necessary basics without overwhelming the students with too much of the underlying chemistry or physics. An integrated approach is used and presented through the use of the new technologies that engineered materials enable. New and interdisciplinary developments in the materials field are also presented and discussed.

New to This Edition • •

A new chapter on corrosion and wear has been added, extend the traditional Materials Science curriculum. Chapter learning objectives have been added to the beginning of each chapter to aid in the learning and retention of chapter content as well as to assist instructors with assessment instruments.

www.cengage.com/engineering

MATERIALS SCIENCE • • •

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Extended discussion of crystallography. New material on the allotropes of carbon added to the discussion on atomic structure. New current research topics and applications such as nanoindentation, mechanical behavior of metallic glasses, and mechanical behavior at small length scales. New material on the vapor-liquid-solid mechanism of nanowire growth. Problems have been added to the end of each chapter, some of which require students to use Knovel® online reference tool for Materials Science. Glossary items now in 2nd-color for easier navigation.

Key Features • • •

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Uses an integrated approach to Materials Science and Engineering throughout. Content is in line with the latest advances in the field allowing students and faculty to make use of the ideas and issues that are of current interest. Students can relate the content to the products and technologies they have experience with through the real-world examples used through-out. Each chapter contains a “Have You Ever Wondered?” set of questions designed to pique the interest of students and set the framework for the material to be covered in that chapter.

science, electronics, or physics. It clarifies the philosophy underlying the various branches of solid state physics, explores the exciting and original ideas of great scientists, demonstrates the significance of the neat assumptions in theories, and exposes the complicated nature of solid state experiments. This book aims to guide students through a journey of the beauty amidst complexity, without missing the delicate thoughts contained in theories.

• Recent references have been incorporated to complement the remaining original references, which provide historic context. • New figures were added to enhance understanding of the text. • Sections on nano-structures have been included to demonstrate the applicability of the physical metallurgy principles to current nanotechnology trends.

Key Features

Ancillaries

• The book covers the basic concepts, theories, and experiments about the structure of solids and their electrical, magnetic, thermal, sonic, and optical properties. • The author traces the history of solid state physics in the discussion of chemical bonds and crystal formation, lattice vibration and phonon, magnetism and spin, dielectric constant and refraction index. • Easy and student-friendly text, this book can be of great help to engineering and computer science students in view of the important role of Solid State Physics in modern technology; the energy band theory is essential to the understanding of CMOS in the computer processor unit.

Ancillaries Instructor’s Solutions Manual ISBN: 1-111-57688-2, ISBN-13: 978-1-111-57688-2 SI Version Instructor’s Solutions Manual ISBN: 1-111-57689-0, ISBN-13: 978-1-111-57689-9

eBook

Also Available Essentials of Materials Science & Engineering Second Edition – SI Version, Spanish Version ISBN: 607-481-340-X, ISBN-13: 978-607-481-340-1 Essentials of Materials Science & Engineering, First Edition Portuguese Version ISBN: 85-221-0598-7, ISBN-13: 978-8-5221-0598-4 Complex Chinese Version ISBN: 986-7497-49-X, ISBN-13: 978-9-8674-9749-9

Physical Metallurgy Principles Fourth Edition

ISBN: 0-495-08254-6, ISBN-13: 978-0-495-08254-5

Also Available in SI Units

ISBN: 0-495-43851-0, ISBN-13: 978-0-495-43851-9

This comprehensive, student-friendly text is intended for use in an introductory course in physical metallurgy and is designed for all engineering students at the junior or senior level. The approach is largely theoretical, but all aspects of physical metallurgy and behavior of metals and alloys are covered. The treatment used in this textbook is in harmony with a more fundamental approach to engineering education. An extensive revision has been done to insure that the content remains the standard for metallurgy engineering courses worldwide.

ISBN: 9-814-22797-8, ISBN-13: 978-9-8142-2797-1

Key Features

Solid State Physics Dan Wei, Tsinghua University - Beijing

This is a concise solid state physics textbook written for undergraduate students majoring in materials

• Easy to read format successfully communicates the essence of the content presented.

www.cengage.com/engineering

Instructor’s Solutions Manual ISBN-10: 0-495-24443-0, ISBN-13: 978-0-495-24443-1 SI Version Instructor’s Solutions Manual ISBN: 0-495-43841-3, ISBN-13: 978-0-495-43841-0

MECHANICAL ENGINEERING Introduction to Mechanical Engineering

eBook

technology; design, policy, and innovation; and renewable energy. • New Cengage Learning Global Engineering CourseMate brings course concepts to life with interactive learning, study, and exam preparation tools that support the printed textbook. Watch student comprehension soar as your class works with the printed textbook and the textbook-specific website. Global Engineering CourseMate goes beyond the book to deliver what you need!

Mechanics of Materials

eBook

Key Features

ISBN: 1-111-57680-7, ISBN-13: 978-1-111-57680-6

Also Available in SI Units

ISBN: 1-111-57682-3, ISBN-13: 978-1-111-57682-0 An Introduction to Mechanical Engineering introduces students to the ever-emerging field of mechanical engineering, giving an appreciation for how engineers design the hardware that builds and improves societies all around the world. Intended for students in their first or second year of a typical college or university program in mechanical engineering or a closely related field, the text balances the treatments of technical problem-solving skills, design, engineering analysis, and modern technology.

New to This Edition

• 50% more homework problems. • New section on written and graphical communications. • New introduction to Newton’s Laws of Motion. • New design applications are developed in each chapter through the homework problems, case studies, and/or example problems, allowing students to learn how their engineering science knowledge gets transformed into engineered systems using design principles. • Many new and updated “Focus On” features, highlighting emerging trends and technologies in mechanical engineering, expose students to modern and recent global technologies, products, and events, and learn how engineers impact them. • Increased emphasis on the development of innovative solutions to technical challenges that address global, social, environmental, and economic issues. • Includes many new global, environmental, and social applications including: the NAE Grand Challenges; the Deepwater Oil Spill; clean energy vehicles; sustainable cities; advanced materials; global energy consumption; sports

• Addresses the questions “who are mechanical engineers” and “what do they do?” • Explores innovative design experiences, problem-solving skills, basic engineering analysis, and case studies. • Emphasizes design projects, and exposes students to computer-aided engineering, principles of engineering science, and mechanical engineering hardware. • Includes a number of vignettes and case studies to demonstrate the realism of the material. • “Focus on …” boxes in each chapter are used to highlight interesting topics and other emerging concepts in mechanical engineering, broadening the textbook’s coverage without detracting from its flow. • Presents engineering as a visual and graphical activity by placing particular emphasis on the quality and breadth of the nearly three hundred photographs and illustrations. This text leverages realism to motivate students through interesting examples that offer a glimpse of what they will be able to study in later courses and, subsequently, practice in their own careers.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-111-57681-5, ISBN-13: 978-1-111-57681-3 SI Version Instructor’s Solutions Manual ISBN: 1-111-57683-1, ISBN-13: 978-1-111-57683-7 Global Engineering CourseMate ISBN: 1-111-86471-3, ISBN-13: 978-1-111-86471-2 Global Engineering CourseMate – SI Version ISBN: 1-111-86475-6, ISBN-13: 978-1-111-86475-0 Cengage Learning’s Engineering CourseMate brings course concepts to life with interactive learning, study, and exam preparation tools that support the printed textbook. Visit www. cengage.com/coursemate for more details.

Also Available

An Introduction to Mechanical Engineering First Edition, Korean Version ISBN: 9-812-65375-9, ISBN-13: 978-9-812-65375-8 An Introduction to Mechanical Engineering Second Edition, Portuguese Version ISBN: 8-522-10540-5, ISBN-13: 978-8-522-10540-3

ISBN: 1-111-13602-5, ISBN-13: 978-1-1111-3602-4

Also Available in SI Units

ISBN: 1-111-13603-3, ISBN-13: 978-1-1111-3603-1 Mechanics of Materials Brief Edition by Gere and Goodno presents thorough and in-depth coverage of the essential topics required for an introductory course in Mechanics of Materials. This user-friendly text gives complete discussions with an emphasis on “need-to-know” material with a minimization of “nice-to-know” content. Topics considered beyond the scope of a first course in the subject matter have been eliminated to better tailor the text to the introductory course. Continuing the tradition of hallmark clarity and accuracy found in all 8 full editions of Mechanics of Materials, this text develops student understanding along with analytical and problemsolving skills. The main topics include analysis and design of structural members subjected to tension, compression, torsion, bending, and more.

Key Features

• Attention to detail in the presentation of basic concepts and derivations of key equations has been preserved and maintained in this Brief Edition of the full version of Mechanics of Materials, 7th Edition. • Problem sets reinforce the importance of solving problems as part of the learning process. Almost 700 problems for homework assignments and classroom discussions are offered. • Specific problems typical of those found on the FE Exam can be found in a separate section in the back of the book. • Expansive Chapter Summary & Review sections at the end of each chapter include key concepts & associated formulas. • Photos of actual structures, structural components and systems, are used in selected examples and problems to illustrate the development of simplified analytical models acted on by typical loadings; in many cases, associated free-body diagrams are also provided to guide the student.

www.cengage.com/engineering

MECHANICAL ENGINEERING • Material from the Appendices and References/ Historical Notes of Mechanics of Materials, 7th Edition has been moved online, available to students and instructors for reference.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-111-13604-1, ISBN-13: 978-1-1111-3604-8 SI Version Instructor’s Solutions Manual ISBN: 1-111-13605-X, ISBN-13: 978-1-1111-3605-5

eBook

Mechanics of Materials Eighth Edition

ISBN: 1-111-57773-0, ISBN-13: 978-1-111-57773-5

Also Available in SI Units

ISBN: 1-111-57774-9, ISBN-13: 978-1-111-57774-2 The eighth edition of Mechanics of Materials continues its tradition as one of the leading texts on the market. With its hallmark clarity and accuracy, this text develops student understanding along with analytical and problemsolving skills. The main topics include analysis and design of structural members subjected to tension, compression, torsion, bending, and more. The book includes more material than can be taught in a single course giving instructors the opportunity to select the topics they wish to cover, while leaving any remaining material as a valuable student reference.

New to This Edition

• New CengageNOW online teaching and learning resource gives you more control in less time and delivers better outcomes NOW! Includes interactive eBook, assignable and gradable homework and testing, personalized learning plans for students, and more. • Learning Objectives have been added to the beginning of each chapter. • Chapter Overview sections have been updated with all important concepts highlighted. • Updated Chapter Summary and Review sections at the end of each chapter now include key formulas derived, discussed, and applied to problem solutions. • Many new/updated/revised example problems have been added in each chapter; some are based on actual structures and photos have been added where appropriate.

• An enhanced step-by-step solution approach has been implemented so that important fundamental concepts can be highlighted and emphasized. • Over 100 new problems typical in type and format of those found on the FE Examination have been added in an additional appendix to assist students in preparing for the FE Exam. • All problems have been reviewed for appropriateness and accuracy; many problems were revised or updated to improve clarity in presentation of fundamental concepts. In some cases, problem solutions were revised to enhance learning. Mathcad solutions for many problems are now available for use by instructors. • New section on failure theories for components in multiaxial states of stress and made from ductile or brittle materials has been added. • New section added to Chapter 1 to assist the student in making the transition from the prerequisite course on Statics to Mechanics of Materials; fundamental concepts of equilibrium are reviewed and then applied to solution of sample problems, like those they will encounter in later chapters.

Key Features

• 4-color format provides better visualization of graphs and worked-out problems. • Clarity and Accuracy: Considerable effort was spent in designing, checking, and proofreading the text and figures. • Problems: The text offers more than 1000 problems for homework assignments and classroom discussions. The exercises are arranged in order of difficulty and placed at the end of the chapter making them easy to find without breaking up the subject matter. • Examples: Numerous examples illustrate the theoretical concepts and show how those concepts may be used in practical situations. In some cases, photographs have been added showing actual engineering structures or components to reinforce the tie between theory and application. • Both the International System of Units (SI) and the U.S. Customary System (USCS) are used in the examples and problems allowing students to gain proficiency using both.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-111-57857-5, ISBN-13: 978-1-111-57857-2 CengageNOW ISBN: 1-133-64356-6, ISBN-13: 978-1-133-64356-2 SI Version Instructor’s Solutions Manual ISBN: 1-111-57858-3, ISBN-13: 978-1-111-57858-9 CengageNOW – SI Version ISBN: 1-133-64360-4, ISBN-13: 978-1-133-64360-9

Also Available

Mechanics of Materials, Seventh Edition Spanish Edition ISBN: 970-830-040-3, ISBN-13: 978-9-7083-0040-7 Mechanics of Materials, Fifth Edition Portuguese Edition ISBN: 85-221-0313-5, ISBN-13: 978-85-221-0313-3

www.cengage.com/engineering

eBook

Mechanics of Materials Second Edition

ISBN: 0-495-66775-7, ISBN-13: 978-0-495-66775-9

Also Available in SI Units

ISBN: 1-439-06220-X, ISBN-13: 978-1-439-06220-3 The second edition of Mechanics of Materials by Andrew Pytel and Jaan Kiusalaas is a concise examination of the fundamentals of Mechanics of Materials. The book maintains the hallmark organization of the previous edition, as well as the time-tested problem solving methodology that incorporates outlines of procedures and numerous sample problems to help ease students through the transition from theory to problem analysis. Emphasis is placed on giving students the introduction to the field that they need, along with the problem-solving skills that will help them in their subsequent studies. This is demonstrated in the text by the presentation of fundamental principles before the introduction of advanced/special topics.

New to This Edition

• Now includes the analysis of the torsion of rectangular bars, discussing an important applied problem within engineering design. • Expanded article on reinforced concrete beams now includes Ultimate Moment Analysis based upon the most recent code of the American Concrete Institute (ACI). • Revised article on the design of intermediate columns now includes the most recent specifications of the American Institute of Steel Construction (AISC). • Increased amount of figures to accompany homework problems. • New and revised sample and homework problems. • First edition Study Guide material now available online – complementary for students.

Key Features

• Offers concise coverage of all of the required material for a Mechanics of Materials course. • Covers fundamental concepts – clearly and simply – without clouding students’ understanding with details about special cases. • Advanced topics are found in later chapters and are not interwoven into the early chapters on the basic theory, allowing the

MECHANICAL ENGINEERING General Engineering core material to be efficiently taught without skipping over topics within chapters. • The general transformation equation for stress (including Mohr’s Circle) are deferred until Chapter 8, after students have gained experience with the basics of axial, torsional, and bending loads. • In the derivation of formulas, the authors emphasize the physical situation before implementing mathematics to model the problem. • Free-body diagrams are used throughout the text to identify unknown quantities and to recognize the number of independent equations. • Virtually, every article is immediately illustrated by sample problems and homework problems that illustrate the principles and the problemsolving procedure introduced in the article. • End-of-chapter homework exercises serve as a review of the material covered in the chapter. • Design-oriented computer problems are included at the end of most chapters, intended to be solved using computer languages such as Mathcad and/or MATLAB®. • The text contains an equal number of problems using SI and US Customary Units. • Basic equations are summarized inside the back cover of the textbook for easy access.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-439-06219-6, ISBN-13: 978-1-439-06219-7 SI Version Instructor’s Solutions Manual ISBN: 1-4390-6221-8, ISBN-13: 978-1-439-06221-0

Also Available

Mechanics of Materials, Second Edition Advantage – Binder Ready Version ISBN: 1-133-10427-4, ISBN-13: 978-1-133-10427-8

Engineering Mechanics

Engineering Mechanics: eBook Statics Third Edition

ISBN: 0-495-24469-4, ISBN-13: 978-0-495-24469-1

Also Available in SI Units

ISBN: 0-495-29559-0, ISBN-13: 978-0-495-29559-4

Engineering Mechanics: eBook Dynamics

Third Edition

ISBN: 0-495-29561-2, ISBN-13: 978-0-495-29561-7

Also Available in SI Units

ISBN: 0-495-29563-9, ISBN-13: 978-0-495-29563-1 The third editions of both Engineering Mechanics: Statics and Engineering Mechanics: Dynamics, written by nationally regarded authors Andrew Pytel and Jaan Kiusalaas, provide students with solid coverage of material without the overload of extraneous detail. The extensive teaching experience of the authorship team provides first-hand knowledge of the learning skill levels of today’s student. This is reflected in the texts through the pedagogy and the tying of real world problems and examples to the fundamentals of Statics and Dynamics. Teaching students how to effectively analyze problems before plugging numbers into formulas, these texts benefit students tremendously as they encounter real-life problems that may not always fit into standard formulas. These books were designed with a rich, concise, two-color presentation and have stand alone Study Guides that include further problems, examples, and case studies.

SI Version Study Guide ISBN-10: 0-495-41128-0, ISBN-13: 978-0-4954-1128-4 Instructor’s Solutions Manual ISBN-10: 0-495-24487-2, ISBN-13: 978-0-4952-4487-5 SI Version Instructor’s Solutions Manual ISBN-10: 0-495-29560-4, ISBN-13: 978-0-4952-9560-0 Engineering Mechanics: Dynamics Study Guide ISBN-10: 0-495-41124-8, ISBN-13: 978-0-4954-1124-6 SI Version Study Guide ISBN-10: 0-495-41129-9, ISBN-13: 978-0-4954-1129-1 Instructor’s Solutions Manual ISBN-10: 0-495-29562-0, ISBN-13: 978-0-4952-9562-4 SI Version Instructor’s Solutions Manual ISBN-10: 0-495-29564-7, ISBN-13: 978-0-4952-9564-8

Also available - Best Buy Bundles

Engineering Mechanics: Statics + Dynamics ISBN-10: 1-4390-6193-9, ISBN-13: 978-1-4390-6193-0 Engineering Mechanics: Statics + Study Guide ISBN-10: 1-111-08363-0, ISBN-13: 978-1-111-08363-2 Engineering Mechanics: Dynamics + Study Guide ISBN-10: 1-4390-6191-2, ISBN-13: 978-1-4390-6191-6 Engineering Mechanics: Statics + Dynamics + Study Guides ISBN-10: 1-4390-6194-7, ISBN-13: 978-1-4390-6194-7

New to this Edition:

• New “Review of Equations” sections have been added to the end of each chapter to assist students as they work the textbook problems. • Includes new content on rolling resistance and a revised section on virtual displacements • Section on beam analysis has been completely rewritten to more clearly focus upon methods and terminology used in the engineering design of beams.

Key Features:

• The early introduction to the relationship between force and acceleration used in this pedagogy allows students to realize much sooner how Newton’s laws of motion can be used to analyze problems. • Where appropriate, sample problems are solved using both scalar and vector notations allowing for increased problem-solving skills. • Equilibrium analysis of problems is uniquely taught using three steps: (1) how to draw freebody diagrams; (2) how to analyze problems using given free-body diagrams; (3) how to perform complete problem analyses by combining the previous two steps. • The solutions of sample problems that require equilibrium analyses are discussed using a unique and orderly technique using three general subdivisions: (1) Method of Analysis; (2) Mathematical Details; (3) Other Methods of Analysis. • The equilibrium analysis of a single body and connected bodies (often referred to as “frames and machines”) are discussed in detail in a single comprehensive chapter. • Sample problems requiring numerical integration are included.

Ancillaries

Engineering Mechanics: Statics Study Guide ISBN-10: 0-495-41127-2, ISBN-13: 978-0-4954-1127-7

Engineering Mechanics: Statics Computational Edition

ISBN: 0-534-54921-7, ISBN-13: 978-0-534-54921-3

Also Available in SI Units

ISBN: 0-495-43811-1, ISBN-13: 978-0-495-43811-3

Engineering Mechanics: Dynamics Computational Edition

ISBN: 0-534-54885-7, ISBN-13: 978-0-534-54885-8

Also Available in SI Units

ISBN: 0-495-43817-0, ISBN-13: 978-0-495-43817-5 Focusing on the conceptual understanding of mechanics, these exciting new texts address developments in the methods of analyzing mechanics problems. They fully incorporate the

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MECHANICAL ENGINEERING highly sophisticated computational software packages currently available to students. The texts provide transition material to higher level courses, as well as a wealth of problems to foster understanding. All sample problems and the use of computational software (Mathcad®, MATLAB®, Mathematica® and Maple®) are presented in four separate manuals (one for each software program). Each manual explains how to use the software package to solve the example problems in the books.

Engineering Mechanics: Statics – Computational SI Edition Instructor’s Solutions Manual ISBN: 0-495-43812-X, ISBN-13: 978-0-4954-3812-0

Key Features

Engineering Mechanics: Dynamics – Computational Edition Spanish Version ISBN: 970-830-011-X, ISBN-13: 978-9-7083-0011-7

• Separate manuals for MATLAB®, Mathcad®, Maple®, and Mathematica® present details on each computational software package and how it can be used in the solution of problems in either Statics or Dynamics. • Homework problems are marked in such a manner that the instructor and student will know if a particular problem can and in some cases must be solved with the aid of software, or if it could be easily solved “by hand.” • Computational methods were separated in the text so that they can be omitted if the instructor chooses. These methods would still be available as a reference for the student for later courses.

Ancillaries

Engineering Mechanics: Dynamics – Computational SI Edition Instructor’s Solutions Manual ISBN: 0-495-43818-9, ISBN-13: 978-0-4954-3818-2

Also Available

Engineering Mechanics: Statics – Computational Edition Spanish Version ISBN: 970-830-009-8, ISBN-13: 978-9-7083-0009-4

A First Course in the Finite Element Method An Introduction to Planar Dynamics

A MATLAB® Manual for Engineering Mechanics: Statics – Computational SI Edition ISBN: 0-495-43813-8, ISBN-13: 978-0-4954-3813-7

Third Edition

A MATLAB® Manual for Engineering Mechanics: Dynamics – Computational Edition ISBN: 0-495-29608-2, ISBN-13: 978-0-4952-9608-9

A MATLAB® Manual for Engineering Mechanics: Dynamics – Computational SI Edition ISBN: 0-495-43819-7, ISBN-13: 978-0-4954-3819-9

This book is intended for students taking a fundamental course in Engineering Mechanics. The material in this book is tailored in a concise manner for teaching the major concepts of Dynamics in one semester. Students cover the fundamental principles of Dynamics through the study of planar motion of particles and rigid bodies. Throughout the book, vectors are used as a basic mathematical tool. The authors believe that basic training in vector analysis will be of great help in giving students an in-depth understanding of the concepts and principles in Planar Dynamics.

A Mathcad® Manual for Engineering Mechanics: Dynamics – Computational Edition ISBN: 0-495-29609-0, ISBN-13: 978-0-4952-9609-6 A Maple® Manual for Engineering Mechanics: Statics – Computational Edition ISBN: 0-495-29606-6, ISBN-13: 978-0-4952-9606-5 A Maple® Manual for Engineering Mechanics: Dynamics – Computational Edition ISBN: 0-495-29610-4, ISBN-13: 978-0-4952-9610-2 A Mathematica® Manual for Engineering Mechanics: Statics – Computational Edition ISBN: 0-495-29607-4, ISBN-13: 978-0-4952-9607-2 A Mathematica® Manual for Engineering Mechanics: Dynamics – Computational Edition ISBN: 0-495-29599-X, ISBN-13: 978-0-4952-9599-0 Engineering Mechanics: Statics – Computational Edition Instructor’s Solution Manual ISBN: 0-495-24475-9, ISBN-13: 978-0-4952-4475-2 Engineering Mechanics: Dynamics – Computational Edition Instructor’s Solution Manual ISBN: 0-495-24476-7, ISBN-13: 978-0-4952-4476-9

Finite Element Analysis

eBook

A MATLAB® Manual for Engineering Mechanics: Statics – Computational Edition ISBN: 0-495-29593-0, ISBN-13: 978-0-4952-9593-8

A Manual for Engineering Mechanics: Statics – Computational Edition ISBN: 0-495-29594-9, ISBN-13: 978-0-4952-9594-5

deriving/explaining the governing equations of motion of rigid body. • A hierarchy of the principles and equations in Kinematics and Kinetics gives students a good overall picture of the knowledge structure. • Each chapter has a summary to highlight the contents, followed by guidelines for problem solving.

Chen Guang, Nanyang Technological University - Singapore Yap Fook Fah, Nanyang Technological University - Singapore

ISBN: 9-812-43568-9, ISBN-13: 978-9-812-43568-2

Key Features

• Important underlying concepts, such as moving reference frames and relative motion, are consistently used throughout the text. There is a close connection between the study of particles and rigid bodies. • A consistent vector approach to establishing principles and solving problems is followed. • Emphasis is placed on the concept of relative motion—based on the principle of velocity/ acceleration combination—bringing out the physical relevance of the terms in the velocity/ acceleration equation. • From rectilinear, circular motion to curvilinear motion, a straightforward way to study the combination of motion in deferent coordinate systems. From translation, rotation to general motion, an easy-to follow approach to

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Fifth Edition

ISBN: 0-495-66825-7, ISBN-13: 978-0-495-66825-1

Also Available in SI Units

ISBN: 0-495-66827-3, ISBN-13: 978-0-495-66827-5 A First Course in the Finite Element Method provides a simple, basic approach to the course material that can be understood by both undergraduate and graduate students without the usual prerequisites (i.e. structural analysis). The book is written primarily as a basic learning tool for the undergraduate student in civil and mechanical engineering whose main interest is in stress analysis and heat transfer. The text is geared toward those who want to apply the finite element method as a tool to solve practical physical problems.

New to This Edition

• Now includes examples from other fields in order to demonstrate that FEM can be used to solve problems from a variety of engineering and mathematical physics areas. • Chapter objective sections have been added to each chapter as a strategy to increase understanding and retention of the material. • Short-answer type problems have been added to the end of each chapter to invoke the use of the creative thought process in understanding the principles of the Finite Element Method. • End of chapter summaries and key equations sections have been added to each chapter for easy review. • Additional plate bending real-world examples and problems have been included in order to enhance student understanding. • Now in 2-color format for enhanced clarity and understanding of figures and tables. • Increased amount of illustrations of 3D

MECHANICAL ENGINEERING General Engineering applications and solutions in stress and heat transfer analysis. • Notation has been revised for consistency throughout. • Downloadable Algor solutions in the form of .avi files are available for students and instructors.

Key Features

• Topics progress from basic to advanced, making the text suitable for a one or twocourse sequence. • Mathematics is presented in a simple and straightforward manner making this text accessible and easily understood. • Each chapter is structured in a similar format. General principles are presented for each topic, followed by traditional applications of these principles, which are in turn followed by computer applications where relevant. • The principle of minimum potential energy and Galerkin’s residual method are introduced at various stages as required to develop the equations needed for analysis. • Appendices include basic matrix algebra (used throughout the text), solutions methods for simultaneous equations, equations from elasticity theory, equivalent nodal forces, the principle of virtual work, and properties of structural steel and aluminum shapes. • Many worked examples appear throughout the text. These examples are solved “longhand” to illustrate how essential concepts are applied. • Includes a 4-color insert that provides a clear visual application of FEM.

Ancillaries

Instructor’s Solutions Manual ISBN: 0-495-66826-5, ISBN-13: 978-0-495-66826-8 SI Version Instructor’s Solutions Manual ISBN: 0-495-66828-1, ISBN-13: 978-0-495-66828-2

A First Course in the Finite Element Method Using Algor™ Second Edition

ISBN: 0-534-38068-9, ISBN-13: 978-0-534-38068-7 Daryl Logan’s clear and easy-to-understand text provides a thorough treatment of the finite element method and how to apply it to solve practical physical problems in engineering. Concepts are presented simply, making it understandable for students of all levels of experience.

Key Features

• Integrates Algor Release 12. • The book proceeds from basic to advanced topics and can be suitably used in a one or two-course sequence. • Each chapter is structured in a similar format. General principles are presented for each topic, followed by traditional applications of these principles, which are in turn followed by computer applications where relevant.

• The principle of minimum potential energy and Galerkin’s residual method are introduced at various stages as required to develop the equations needed for analysis. • Appendices include basic matrix algebra (used throughout the text), solutions methods for simultaneous equations, basic theory of elasticity, equivalent nodal forces, the principle of virtual work , and the Basics of Algor™. • Contains several worked examples that appear throughout the text. These examples are solved by hand to illustrate how essential concepts are applied.

• Includes discussions on advanced topics such as flow problems and non-linear FEM.

Thermodynamics/Thermal Sciences

Ancillaries

Instructor’s Solutions Manual ISBN: 0-534-38131-6, ISBN-13: 978-0-534-38131-8

Thermal Sciences: An Introduction to Thermodynamics, Fluid Mechanics, and Heat Transfer Merle C. Potter, Michigan State University Elaine P. Scott, Virginia Tech

ISBN: 81-315-0987-7, ISBN-13: 978-8-131-50987-6 Finite Element Methods for Engineers is designed to serve as a textbook for a first course in the finite element method (FEM) for undergraduate and postgraduate students of engineering. The book introduces the reader to FEM as a mathematical tool and covers the application of the method to mechanical and civil engineering problems. Beginning with an introduction to calculus of variations, the book goes on to describe Ritz and Galerkin FEM formulations and one-, two-, and three-dimensional FEM formulations. Application of the method to bending of beams, trusses, and frames, and problems of plane stress and plane strain, free vibration, plate, and time history are also included. Discussions on advanced topics such as FEM formulation of flow problems, error analysis in FEM, and non-linear FEM make for a complete introductory text. Inclusion of topics such as approximation methods for solving differential equations, numerical integration, and methods for solving FEM problems on a computer enhance the utility of the book.

Key Features

• Discusses in a lucid manner the application of FEM for solving equations governing important physical systems. • Incorporates a large number of illustrations and solved problems for easy and clear understanding of concepts. • Contains a large number of review problems that aid in grasping important topics.

ISBN: 0-534-38521-4, ISBN-13: 978-0-534-38521-7 This book allows a school to use a common text for two key subjects, thermodynamics and fluid mechanics, with a short introduction to heat transfer. Taking a well-balanced approach, the authors clearly demonstrate the connections among the three interrelated subjects. Due to the consistent terminology and continuity, students will find it easier to learn the three subjects. Instructors will also find it easier to refer to material covered earlier (e.g. thermodynamic laws as applied in fluid mechanics and heat transfer). The book provides the appropriate amount of material for non-mechanical engineering students. Addressing various levels of difficulty, the authors provide a wealth of examples and exercises, including synthesis problems and design problems.

Key Features

• Uses an easy-to-read style that makes it simple for students to understand the material. • Assists in the effective teaching and learning of engineering design, which often involves application of all three subjects to a particular design project. • Includes examples that clarify all of the important concepts with hundreds of homework problems for effective learning of these concepts, including FE/EIT-type problems. • Incorporates helpful learning features, such as chapter outlines and summaries, margin notes, nomenclature lists, and more.

Ancillaries

Instructor’s Solutions Manual ISBN: 0-534-38522-2, ISBN-13: 978-0-534-38522-4

www.cengage.com/engineering

MECHANICAL ENGINEERING Also Available

Thermal Sciences: An Introduction to ThermoDynamics, Fluid Mechanics, and Heat Transfer Spanish Version ISBN:970-686-565-9, ISBN-13: 978-9-706-86565-6 Portuguese Version Book One ISBN: 85-221-0490-5, ISBN-13: 978-8-522-10490-1 Portuguese Version Book Two ISBN: 85-221-0489-1, ISBN-13: 978-8-522-10489-5 Korean Version ISBN: 981-265-374-0, ISBN-13: 978-9-812-65374-1

eBook

ISBN: 1-285-05647-7, ISBN-13: 978-1-285-05647-0

Also Available in SI Units

ISBN: 1-285-05648-5, ISBN-13: 978-1-285-05648-7 Written in an informal, first-person writing style that makes abstract concepts easier to understand, Principles of Engineering Thermodynamics promises to transform the way students learn thermodynamics. While continuing to provide strong coverage of fundamental principles and applications, the book asks students to explore how changes in a particular parameter can change a device’s or process’s performance. This approach helps them develop a better understanding of how to apply thermodynamics in their future careers and a stronger intuitive feel for how the different components of thermodynamics are interrelated. Throughout the book, students are encouraged to develop computer-based models of devices, processes, and cycles and to take advantage of the speed of Internet-based programs and computer apps to find thermodynamic data, just as practicing engineers do.

Key Features: •

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Well-placed and practical examples in every chapter help students understand the use of thermodynamics in solving engineering problems. The author uses a methodical approach (clear explanations, real world examples, and a wealth of exercises) to help students learn a process for solving problems. Software is used to develop graphs and show trends, helping students develop engineering judgment. The book is software-neutral so students

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can use any package they are familiar with (for example, MATLAB, Mathcad or free web software). Steam tables are included in the appendix, but the emphasis is on using software to solve thermodynamic problems.

Contents

1. INTRODUCTION TO THERMODYNAMICS AND ENERGY: Basic Concepts: Systems, Processes, and Properties / An Introduction to Some Common Properties / Zeroth Law of Thermodynamics / Phases of Matter / Summary 2. THE NATURE OF ENERGY: What Is Energy? Types of Energy / Transport of Energy / Heat Transfer / Work Transfer / Energy Transfer via Mass Transfer / Analyzing Thermodynamics Systems and Processes / Platform for Performing Thermodynamics Analysis / Summary 3. THERMODYNAMIC PROPERTIES AND EQUATIONS OF STATE: Phase Diagrams / The State Postulate / Internal Energy, Enthalpy and Specific Heats / Equations of State for Ideal Gases / Incompressible Substances / Property Determination for Water and Refrigerants / Summary 4. THE FIRST LAW OF THERMODYNAMICS: Conservation of Mass / First Law of Thermodynamics in Open Systems / First Law of Thermodynamics in Closed Systems / Thermal Efficiency of Heat Engines, Refrigerators, and Heat Pumps / Summary 5. INTRODUCTION TO THE SECOND LAW OF THERMODYNAMICS: The Nature of the Second Law of Thermodynamics / Summary of Some Uses of the Second Law / Classical Statements of the Second Law / Reversible and Irreversible Processes / A Thermodynamic Temperature Scale / Carnot Efficiencies / Perpetual Motion Machines 6. ENTROPY: Entropy and the Clausius Inequality / Entropy Generation / Evaluating Changes in the Entropy of a System / The Entropy Balance / Isentropic Efficiencies / Consistency of Entropy Analyses / Entropy Generation and Irreversibility / Summary 7. POWER CYCLES: Introduction / The Ideal Carnot Power Cycle / The Rankine Cycle / Gas (Air) Power Cycles and Air Standard Cycle analysis / Brayton Cycle / Otto Cycle / Diesel Cycle / Dual Cycle / Summary 8. REFRIGERATION CYCLES: Introduction / The Vapor-Compression Refrigeration Cycle / Absorption Refrigeration / Reversed Brayton Refrigeration Cycle / Summary 9. IDEAL GAS MIXTURES: Introduction / Defining the Composition of a Gas Mixture / Ideal Gas Mixtures / Solutions of Thermodynamics Problems Incorporating Ideal Gas Mixtures / Introduction to Real Gas Mixture Behavior / Summary 10. PSYCHROMETRICS: THE STUDY OF “ATMOSPHERIC AIR.”: Introduction / Basic Concepts and Terminology of Psychrometrics / Methods of Determining Humidity / Comfort Conditions / Cooling and Dehumidifying of Moist Air / Combining the Cooling and Dehumidifying Process with Refrigeration Cycles / Heating and Humidifying Air / Mixing of Moist Air Streams / Cooling Tower

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Applications / Summary 11. COMBUSTION ANALYSIS: Introduction / The Components of the Combustion Process / A Brief Description of the Combustion Process / Balancing Combustion Reactions / Methods of Characterizing the Reactant Mixture / Determination of Reactants from Known Products / Enthalpy of a Compound and the Enthalpy of Formation / Further Description of the Combustion Process / Heat of Reaction / Adiabatic Flame Temperature / Entropy Balance for Combustion Processes / The Gibbs Function / Fuel Cells / Introduction to Chemical Equilibrium / The Water-Gas Shift Reaction and Rich Combustion / Summary and the Limitations of Combustion Analysis

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-50302-3; ISBN-13: 978-1-305-50302-1 Printed Access Card ISBN: 1-305-50304-X; ISBN-13: 978-1-305-50304-5 SI Version Instant Access ISBN: 1-305-50303-1; ISBN-13: 978-1-305-50303-8 SI Version Printed Access Card ISBN: 1-305-50305-8; ISBN-13: 978-1-305-50305-2

Ancillaries

Instructor’s Solution Manual ISBN: 1-305-27422-9, ISBN-13: 978-1-305-27422-8 SI Version Instructor’s Solutions Manual ISBN: 1-305-27423-7, ISBN-13: 978-1-305-27423-5

eBook

ISBN: 1-133-11286-2, ISBN-13: 978-1-133-11286-0

Also Available in SI Units

ISBN: 1-133-11287-0, ISBN-13: 978-1-133-11287-7 Thermodynamics for Engineers focuses on outcomebased learning, which has been identified by ABET as an essential aspect of engineering curricula. Learning outcomes are listed at the start of each chapter and identified as completed at relevant places in the text, followed by a summary at the

MECHANICAL ENGINEERING General Engineering Fluid Mechanics

end of each chapter. Authors Kenneth Kroos and Merle Potter bring decades of teaching experience to a clear writing style that describes key concepts without straying from the course. The language of thermodynamics is explained in careful detail so that students can quickly understand the concepts presented and the analysis techniques used. Extensive use of practical examples demonstrates the proper set-up and solution of problems. These skills are then further developed using a wide variety of homework problems. Some homework problems are presented with an increased degree of complexity to allow the instructor to challenge the more accomplished.

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Key Features •

eBook

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Design of Fluid Thermal Systems

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Fourth Edition

• • • • • •

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The mathematics (calculus) needed has been kept to a minimum so that all students can follow the developments. Learning outcomes are listed at the start of each chapter and identified as completed at relevant places in the text, followed by a summary at the end of each chapter. Includes short concept quizzes at the completion of each outcome to test the students. Real-world parallels are drawn at appropriate places to help students relate to abstract concepts. Equal emphasis is laid on qualitative and quantitative coverage, theory and application, and core concepts and current trends. Solved examples illustrate clear problem solving methodology and focus on real-world applications of thermodynamics concepts. Sustainability and Bio-related themes make the text more relevant to today’s students. FE Type problems are included at the end of each chapter, to help students prepare for certification exams and aid instructors with short quizzes. End-of-Chapter exercises will serve to check the students’ understanding and provide instructors with an extensive set of homework and exam questions. Mini-exams for students and Sample Exams for Instructors are available through the companion website.

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-49858-5; ISBN-13: 9781305498587 Printed Access Card ISBN: 1-305-49860-7; ISBN-13: 9781305498600 SI Version Instant Access ISBN: 1-305-49859-3; ISBN-13: 9781305498594 SI Version Printed Access Card ISBN: 1-305-49861-5; ISBN-13: 9781305498617

William S. Janna, University of Memphis

ISBN: 1-285-85965-0, ISBN-13: 978-1-285-85965-1

Also Available in SI Units

ISBN: 1-305-07607-9, ISBN-13: 978-1-305-07607-5 This book is designed to serve senior-level engineering students taking a capstone design course in fluid and thermal systems design. It is built from the ground up with the needs and interests of practicing engineers in mind, emphasizing practical applications. The book begins with a discussion of design methodology, including the process of bidding to obtain a project and project management techniques. The text continues with an introductory overview of fluid thermal systems (a pump and pumping system, a household air conditioner, a baseboard heater, a water slide, and a vacuum cleaner are among the examples given) and a review of the properties of fluids and the equations of fluid mechanics. The text then offers an in-depth discussion of piping systems, including the economics of pipe size selection. Pumps (including net positive suction head considerations) and piping systems are examined, providing the reader with the ability to design an entire system for moving fluids that is efficient and cost-effective. Next, the book provides a review of basic heat transfer principles, and the analysis of heat exchangers, including double-pipe, shelland-tube, plate-and-frame, and cross-flow heat exchangers. Design considerations for these exchangers are also discussed. The text concludes with a chapter of term projects that may be undertaken by teams of students.

New to This Edition • • •

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•

Ancillaries

Instructor’s Solution Manual ISBN: 1-133-95693-9, ISBN-13: 978-1-133-95693-8 SI Version Instructor’s Solution Manual ISBN: 1-133-95631-9, ISBN-13: 978-1-133-95631-0

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Key Features •

Many example and practice problems have been added to each chapter. A great number of design problems have been added at appropriate places in the text.

New section added on the concepts of optimization. New information on the system approach versus the individual approach to modeling a fluid thermal system. Newly created chapter (5) including new information on measurements, pipe networks, water hammer, and thermal stresses. Additional information on plate-and-frame and cross-flow heat exchangers. Many new projects have been added as well as an organizational table.

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Built from the ground up geared towards the needs and interests of practicing engineers. Heavy emphasis is placed on practical applications. Reader gains the ability to design an entire system for moving fluids that is efficient and cost-effective. Provides a review of basic heat transfer principles and the analysis of heat exchangers. Chapters conclude with a summary, problems, and a Show and Tell section where students are asked to provide very brief presentations on selected topics. Includes group problems and discussion problems in various chapters. Term projects that may be undertaken by teams of students are provided within the concluding chapter.

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-49845-3; ISBN-13: 978-1-305-49845-7 Printed Access Card ISBN: 1-305-49846-1; ISBN-13: 978-1-305-49846-4 SI Version Instant Access ISBN: 1-305-49844-5; ISBN-13: 978-1-305-49844-0 SI Version Printed Access Card ISBN: 1-305-49847-X; ISBN-13: 978-1-305-49847-1

Ancillaries

Instructor’s Solution Manual ISBN: 1-305-07606-0, ISBN-13: 978-1-305-07606-8 SI Version Instructor’s Solution Manual ISBN: 1-305-07608-7, ISBN-13: 978-1-305-07608-2

Contents

1. INTRODUCTION: The Design Process / The Bid Process / Approaches to Engineering Design / Design Project Example / Project Management / Dimensions and Units 2. FLUID PROPERTIES AND BASIC EQUATIONS: Fluid Properties / Measurement of Viscosity / Measurement of Pressure / Basic Equations of Fluid Mechanics 3. PIPING SYSTEMS I: Pipe and Tubing Standards / Equivalent Diameter for Noncircular Ducts / Equation of Motion for Flow in a Duct / Friction Factor and Pipe Roughness / Minor Losses / Series Piping Systems / Flow Through Noncircular Cross Sections 4. PIPING SYSTEMS II: The Optimization Process / Economic Pipe Diameter / Equivalent Length of Fittings / Graphical Symbols for Piping Systems / System Behavior / Measurement of Flow Rate in Closed Conduits / Support Systems for Pipes

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MECHANICAL ENGINEERING 5. SELECTED TOPICS IN FLUID MECHANICS: Flow in Pipe Networks / Pipes in Parallel / Measurement of Flow Rate in Closed Conduits / The Unsteady Draining Tank Problem 6. PUMPS AND PIPING SYSTEMS: Types of Pumps / Pump Testing Methods / Cavitation and Net Positive Suction Head / Dimensional Analysis of Pumps / Specific Speed and Pump Types / Piping System Design Practices / Fans and Fan Performance 7. SOME HEAT TRANSFER FUNDAMENTALS: Conduction of Heat Through a Plane Wall / Conduction of Heat Through a Cylindrical Wall / Convection Heat Transfer—The General Problem / Convection Heat Transfer Problem: Formulation and Solution / Optimum Thickness of Insulation 8. DOUBLE-PIPE HEAT EXCHANGERS: The Double-Pipe Heat Exchanger / Analysis of Double-Pipe Heat Exchangers / EffectivenessNTU Analysis / Double-Pipe Heat Exchanger Design Considerations 9. SHELL-AND-TUBE HEAT EXCHANGERS: Shelland-Tube Heat Exchangers / Analysis of Shelland-Tube Heat Exchangers/ EffectivenessNTU Analysis / Increased Heat Recovery in Shell-and-Tube Heat Exchangers / Shell-andTube Heat Exchangers Design Considerations / Optimum Water Outlet / Temperature Analysis 10. PLATE-AND-FRAME HEAT EXCHANGERS AND CROSS-FLOW HEAT EXCHANGERS: Plate-andFrame Heat Exchangers/ Analysis of Plateand-Frame Heat Exchangers / Cross-Flow Heat Exchangers 11. PROJECT DESCRIPTIONS

eBook

Mechanics of Fluids Fourth Edition

ISBN: 0-495-66773-0, ISBN-13: 978-0-495-66773-5

Also Available in SI Units

ISBN: 1-439-06203-X, ISBN-13: 978-1-439-06203-6 Mechanics of Fluids presents fluid mechanics in a manner that helps students gain an understanding of and an ability to analyze the important phenomena encountered by practicing engineers. The authors succeed in this through the use of several pedagogical tools that help students visualize the many difficult-

to-understand phenomena of fluid mechanics. Explanations are based on basic physical concepts, as well as mathematics, which are accessible to undergraduate engineering students. This fourth edition includes a Multimedia Fluid Mechanics DVD-ROM, by G.M. Homsy et al., that harnesses the interactivity of multimedia to improve the teaching and learning of fluid mechanics, by illustrating fundamental phenomena and conveying fascinating fluid flows.

Heat Transfer

eBook

New to This Edition

• Now includes a Multimedia Fluid Mechanics DVD-ROM that uses actual fluid flows to illustrate the concepts presented in the text. • Addition of real-life applications to examples and problems now helps with the transition from theory to application. • More examples have been added to illustrate the theory presented in the text and to aid the student’s understanding. • Video Tutorials of 10 topics, with audio and visual explanations of the concepts for selfstudy. Learning Objectives are given for each Video Tutorial. The student will benefit from review and reinforcement of essential topics from the textbook. • 22 Mini-Exams for self-study. Each Mini-Exam has several exam problems, each followed by the solutions. Each Mini-Exam covers one or more sections of the textbook. All Mini-Exams use only SI units.

Key Features

• Introductory material (Chapters 1-9) has been carefully selected to introduce students to all the fundamental areas of fluid mechanics. • Important concepts are all illustrated by detailed, worked-out examples. • Numerous homework problems, many having multiple parts, provide the student with ample opportunity to gain experience solving problems of various levels of difficulty. • Design-type problems are included in several chapters. • Separate end-of-chapter sections of FE/EIT exam type problems have been included. • The book is written emphasizing SI units, however, all properties and dimensional constants are given in English units also. Approximately one-fifth of the examples and problems are presented using English units. • Advanced mathematics, such as vector and tensor calculus and solutions to partial differential equations, is kept at a minimum so students are better able to follow the conversion of concepts into mathematical expressions.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-439-06197-1, ISBN-13: 978-1-439-06197-8 SI Version Instructor’s Solutions Manual ISBN: 1-439-06204-8, ISBN-13: 978-1-439-06204-3

Also Available

Mechanics of Fluids, Third Edition Portuguese Version ISBN: 85-221-0309-7, ISBN-13: 978-85-221-0309-6

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Principles of Heat Transfer Seventh Edition

ISBN: 0-495-66770-6, ISBN-13: 978-0-495-66770-4

Also Available in SI Units

ISBN: 1-439-06186-6, ISBN-13: 978-1-439-06186-2 Principles of Heat Transfer was first published in 1959, and since then it has grown to be considered a classic within the field, setting the standards for coverage and organization within all other Heat Transfer texts. The book is designed for a one-semester course in heat transfer at the junior or senior level, however, flexibility in pedagogy has been provided. Following several recommendations of the ASME Committee on Heat Transfer Education, Kreith, Manglik, and Bohn present relevant and stimulating content in this fresh and comprehensive approach to heat transfer. They acknowledge that in today’s world, classical mathematical solutions to heat transfer problems are often less influential than computational analysis. This acknowledgement is met with the emphasize that students must still learn to appreciate both the physics and the elegance of simple mathematics in addressing complex phenomena, aiming at presenting the principles of heat transfer both within the framework of classical mathematics and empirical correlations.

New to This Edition

• The Mathcad approach used in previous editions has been replaced by MATLAB, found within the chapter on numerical analysis, as well as in the illustrative problems and real world applications of heat transfer included in several chapters. • New Co-Author Dr. Raj M. Manglik, Professor of Mechanical Engineering in the College of Engineering and Applied Science at the University of Cincinnati. Dr. Manglik is a Fellow of the American Society of Mechanical Engineers as well as of the Wessex Institute of Great Britain. He has received many honors from both industry and academia. • Newer applications, illustrative modeling examples, and more current state-of-the art predictive correlations have been added in several chapters.

MECHANICAL ENGINEERING General Engineering • New “Concepts and Analyses to Be Learned” sections at the beginning of each chapter. • New figures, tables, and examples throughout, to help clarify textual material for students. • Now included in the Instructor’s solutions manual is a set of closed-book-test problems that ask a student to demonstrate his or her ability to understand the new concepts related to a specific area. • Clarifying statements have been added throughout for further development and enhanced student understanding. • Additional homework problems that deal directly with topics of current interest, such as the space program and renewable energy.

Key Features

• Addresses the rapid and pervasive changes in technology, applications, analysis tools, and the economy, and their relation to the principles of heat transfer. • Presents an appreciation for both the physics and the elegance of simple mathematics in addressing complex phenomena, while emphasizing the importance of analysis by means of computers. • Uses open-ended problems to illustrate practical applications of heat transfer with problem statements similar to those faced by practicing engineers. • Teaches methods for approaching real, world problems, such as describing problems in your own words, providing schematic descriptions, indicating known and unknown variables, making judicious engineering decisions on the approach of a solution, etc.

Ancillaries

Instructor’s Solutions Manual ISBN: 0-495-66782-X, ISBN-13: 978-0-495-66782-7 SI Version Instructor’s Solutions Manual ISBN: 1-439-06187-4, ISBN-13: 978-1-439-06187-9

Also Available

Principles of Heat Transfer, 7th Edition Spanish Version ISBN: 607-481-615-8, ISBN-13: 978-607-481-615-0

Thoroughly up-to-date and packed with real world examples that apply concepts to engineering practice, Heat and Mass Transfer, 2e , presents the fundamental concepts of heat and mass transfer, demonstrating their complementary nature in engineering applications. Comprehensive, yet more concise than other books for the course, the Second Edition provides a solid introduction to the scientific, mathematical, and empirical methods for treating heat and mass transfer phenomena, along with the tools needed to assess and solve a variety of contemporary engineering problems. Practical guidance throughout helps students learn to anticipate the reasonable answers for a particular system or process and understand that there is often more than one way to solve a particular problem. • • • •

Second Edition

ISBN: 1-285-17880-7, ISBN-13: 978-1-285-17880-6

Also Available in SI Units

ISBN: 1-305-11258-X, ISBN-13: 978-1-305-11258-2

A variety of new features make the learning experience more engaging and interactive. Practical features in every chapter apply the content to “doing” engineering. A new emphasis on renewable energy and energy efficiency prepares students for engineering practice in the 21st century. New information on the history of heat transfer discoveries helps students develop an understanding of the development of the field.

Key Features •

•

Heat and Mass Transfer

New to this Edition

•

eBook

Experimental determinations and analytic discussions explore the four primary material properties of heat and mass transfer: thermal conductivity, convective heat transfer coefficient, surface emissivity, and mass diffusivity. Efficient coverage of analytical and empirical methods prepares students to assess, design, and solve contemporary engineering problems. The book helps students develop an intuitive understanding of the relationship between heat and mass transfer and the disciplines of thermodynamics and fluid mechanics. Especially strong coverage of radiation view factors sets the book apart from other texts available for the course. Photos and figures illustrate real industrial processes and relate theoretical presentations to real-world devices. Emphasis is placed on the importance of understanding the physical phenomena involved in a problem, recognizing the modes of heat transfer involved, and, for complicated physical processes, knowing that numerical methods can be used to help reach a realistic solution. Chapter-ending student learning aids include a summary, discussion questions, class quiz questions, practice problems, and references.

Contents

1. INTRODUCTION: Historic Introduction / The Importance of Heat and Mass Transfer / Dimensions and Units in Heat and Mass Transfer / The Concepts of Heat and Mass Transfer / The Modes of Heat Transfer / The Modes of Mass Transfer / Mathematical Preliminaries / Engineering Analysis of Heat and Mass Transfer / Summary / Discussion

Questions / Class Quiz Questions / Practice Problems / References STEADY STATE CONDUCTION HEAT TRANSFER: Historic Introduction / Fourier’s Law and Thermal Conductivity / The General Problem of Conduction Heat Transfer / Steady State One-Dimensional Heat Transfer / Steady State Two-Dimensional Heat Transfer / Shape Factor Methods / Numerical Methods of Analysis / Applications of Steady State Heat Transfer / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References TRANSIENT CONDUCTION HEAT TRANSFER: Historic Introduction / General Problems in Transient Conduction / Lumped Heat Capacity Systems / One-Dimensional Transient Heat Transfer / Two-Dimensional Transient Heat Transfer / Applications to Solids / Numerical Methods of Analysis / Graphical Methods of Analysis / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References FORCED CONVECTION HEAT TRANSFER: Historic Introduction / The General Problems of Convection Heat Transfer / Concepts of Fluid Flow and Dimensional Analysis / The Boundary Layer Concept / Convection Heat Transfer at a Flat Plate / Convection Heat Transfer Around Objects / Convection Heat Transfer in Closed Channels / Applications of Convection Heat Transfer / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References FREE CONVECTION HEAT TRANSFER: Historic Introduction / The General Concepts of Free Convection / Analysis of Free Convection Along Vertical Surfaces / Free Convection Along Horizontal and Inclined Surfaces / Free Convection Along Horizontal and Vertical Cylinders / Free Convection in Enclosed Spaces / Combined Free and Forced Convection Heat Transfer / Approximate Equations for Free Convection of Air / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References. THE NATURE OF RADIATION HEAT TRANSFER. Historic Introduction / Electromagnetic Radiation / Black Body Radiation / Gray Body Radiation / Geometry of Radiation / Applications of Radiation / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References ANALYSIS OF RADIATION HEAT TRANSFER: Historic Introduction / Electromagnetic Radiation / Black Body Radiation / Gray Body Radiation / Geometry of Radiation / Applications of Radiation / Summary / Discussion Question / Class Quiz Questions / Practice Problems / References MASS TRANSFER: Historic Introduction / The Mechanisms of Mass Transfer / Analysis of Mixtures / Diffusion Mass Transfer / Convection Mass Transfer / Transient Diffusion / Absorption and Adsorption / Permeability / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References. HEAT EXCHANGERS: Historic Introduction / General Concepts of Heat Exchangers / Parameters in Heat Exchangers / LMTD

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MECHANICAL ENGINEERING Method of Analysis / Effectiveness-NTU Method of Analysis / Compact Heat Exchangers / Heat Pipes / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References 10. PHASE CHANGE HEAT TRANSFER: Historic Introduction / The Mechanisms of Phase Change Heat Transfer / Analysis of Boiling Heat Transfer / Condensing Heat Transfer / Simplified Relationships for Boiling and Condensing Heat Transfer / Empirical Methods and Analysis of Melting and Freezing / Applications of Phase Change Heat Transfer / Summary / Discussion Questions / Class Quiz Questions / Practice Problems / References APPENDICES A. MATHEMATICAL INFORMATION: Vector Operations / Matrix Operations / Trigonometric Relationships / Table of Integrals / Hyperbolic Functions / Some Power Series / Harmonic Functions / Fourier Series / Error Function / Bessel Functions / Roots of Some Transcendental Equations and Associated / Coefficients for Transient Conduction in Infinite Plates, infinite Cylinders, and Spheres / Lennard-Jones Intermolecular Force Parameters and Mass / Diffusion Function.\ B. CONVERSION FACTORS AND PROPERTY TABLES: Thermal Properties of Selected Nonmetallic Solids / Thermal Properties of Selected Liquids at Atmospheric Pressure / Thermal Properties of Selected Gases at Atmospheric Pressure / Approximate Values for Emissivities of Surfaces / Thermal Properties of Steam / Electrical Resistance of copper Wire / Constants and Coefficients for the Thermal Conductivity Equation / Surface Tension for Some Selected Materials at Atmospheric Pressure and Interfacing with Air C. PSYCHROMETRICS AND CHARTS: Psychrometrics and Humidity / Psychrometric Chart, SI Units / Psychrometric Chart, English Units / Use of Refrigerant pressure-Enthalpy Charts / p-h Diagram for Water, SI units / p-h Diagram for Water, English Units / p-h Diagram for R-123, SI Units / p-h Diagram for R-123, English Units / p-h Diagram for R-134a, SI Units / p-h Diagram for R-134a, English Units / p-h Diagram for R-12, SI Units / p-h Diagram for R-12, English Units / p-h Diagram for R-22, SI Units / p-h Diagram for R-22, English Units / p-h Diagram for Ammonia, SI Units / p-h Diagram for Ammonia, English Units / Thermal Conductivity of Selected saturated vapors / Thermal Conductivity of Selected Saturated Liquids / Viscosity of Selected Saturated Vapors / Viscosity of Selected Saturated Liquids D. QUANTIFYING COMPREHENSION AND UNDERSTANDING.: Lesson Plans and Sample Examinations ANSWERS TO SELECTED PROBLEMS.

MindTap for Engineering

content and easily assess progress and student engagement. Instant Access ISBN: 1-305-50290-6; ISBN-13: 978-1-305-50290-1 Printed Access Card ISBN: 1-305-50292-2; ISBN-13: 978-1-305-50292-5 SI Version Instant Access ISBN: 1-305-50291-4; ISBN-13: 978-1-305-50291-8 SI Version Printed Access Card ISBN: 1-305-50293-0; ISBN-13: 978-1-305-50293-2

Ancillaries

Instructor’s Solution Manual ISBN: 1-305-11618-6, ISBN-13: 978-1-305-11618-4 SI Version Instructor’s Solutions Manual ISBN: 1-305-11619-4, ISBN-13: 978-1-305-11619-1

Kinematics/Mechanism Design

eBook

• •

This is the only text that consistently uses the Vector Loop Method throughout. Subject matter is presented entirely in terms of kinematic coefficients, including geartrains, mechanical advantage, limit positions and dead positions. The final two chapters deal with mechanism synthesis and stand apart from the first seven chapters which focus on analysis. Various chapters end with exercises, programming problems, design problems, and relevant appendices where applicable.

MindTap for Engineering

MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-49870-4; ISBN-13: 978-1-305-49870-9 Printed Access Card ISBN: 1-305-49872-0; ISBN-13: 978-1-305-49872-3 SI Version Instant Access ISBN: 1-305-49871-2; ISBN-13: 978-1-305-49871-6 SI Version Printed Access Card ISBN: 1-305-49873-9; ISBN-13: 978-1-305-49873-0

Ancillaries

ISBN: 1-133-94391-8, ISBN-13: 978-1-133-94391-4

Also Available in SI Units

ISBN: 1-285-05756-2, ISBN 13: 978-1-285-05756-9 Mechanisms and Machines is designed to serve as a core textbook for the mechanisms and machines course, targeting junior level mechanical engineering students. The book is written with the aim of providing a complete, yet concise, text that can be covered in a single-semester course. The primary goal of the text is to introduce students to the synthesis and analysis of planar mechanisms and machines using a method well suited to computer programming, known as the Vector Loop Method. Author Michael Stanisic’s approach of teaching synthesis first and then going into analysis will enable students to actually grasp the mathematics behind mechanism design. The book uses the Vector Loop Method and kinematic coefficients throughout, and exhibits a seamless continuity in presentation that is a rare find in engineering texts. The multitude of examples in the book covers a large variety of problems and delineates an excellent problem solving methodology.

Key Features •

A large number of automotive-based examples are included in the text: a highly engaging feature for students!

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Instructor’s Solution Manual ISBN: 1-133-96172-X, ISBN-13: 978-1-133-96172-7 SI Version Instructor’s Solution Manual ISBN: 1-133-95182-1, ISBN-13: 978-1-133-95182-7

Contents

1. INTRODUCTION: Joints / Skeleton Diagrams / Mechanisms and Machines / Gruebler’s Criterion and Degrees of Freedom / Mobility / Grashof’s Criterion / Exercises 2. KINEMATIC ANALYSIS PART I: VECTOR LOOP METHOD: Kinematic Analysis and the Vector Loop Method / Hints for Choosing Vectors / Closed-Form Solutions to the Position Equations / Numerical Solutions to Position Equations via Newton’s Method / The Motion of Points of Interest / Exercises / Programming Problems / Appendix I: Derivation of the Double Angle Formulas / Appendix II: Derivation of the Tangent of the Half Angle Formulas / Appendix III: MATLAB Code Used in Example 2.10 Demonstrating Newton’s Method 3. KINEMATIC ANALYSIS PART II: ROLLING CONTACTS: Externally Contacting Rolling Bodies / Internally Contacting Rolling Bodies / One Body with a Flat Surface / Assembly Configuration / Geartrains / Exercises / Appendix I: The Involute Tooth Profile 4. KINEMATIC ANALYSIS PART III: KINEMATIC COEFFICIENTS: Time-Based Velocity and Acceleration Analysis of the Four Bar Mechanism / Kinematic Coefficients / Finding Dead Positions Using Kinematic Coefficients / Finding Limit Positions Using Kinematic Coefficients / Kinematic Coefficients of Points of Interest / Kinematic Coefficients of Geartrains / Exercises / Programming Problems

MECHANICAL ENGINEERING General Engineering 5. MACHINE DYNAMICS PART I: THE INVERSE DYNAMICS PROBLEM: Review of Planar Kinetics / Three-Dimensional Aspects in the Force Analysis of Planar Machines / Static Force Analysis and Inertia Force Analysis / Force Analysis of Rolling Contacts / Exercises / Appendix I: Kinematic Analysis for Examples in Section 5.1 (Example 5.2) and Section 7.2 / Appendix II: Computing the Accelerations of the Mass Centers of the Composite Shapes in the Example Discussed in Section 5.2.6 6 MACHINE DYNAMICS PART II: JOINT FRICTION: Friction in a Pin Joint / Friction in a Pin-in-a-Slot Joint / Friction in a Straight Sliding Joint / Exercises 7. MACHINE DYNAMICS PART III: THE POWER EQUATION: Development of the Power Equation / The Power Equation and the Inverse Dynamics Problem / The Power Equation and the Forward Dynamics Problem / Mechanical Advantage / Efficiency and Mechanical Advantage / Exercises / Programming Problems / Programming Problems: Designing the Drive of an Air Compressor / Designing the Drive System of a Fail-Safe Quick Valve Shut-Off System / Design Problems 8. MECHANISM SYNTHESIS PART I: FREUDENSTEIN’S EQUATION: Freudenstein’s Equation for the Four Bar Mechanism / Freudenstein’s Equation for the Crank-Slider Mechanism / Design Problems 9. Mechanism Synthesis Part II: Rigid Body Guidance: Mathematical Model of a Planar Rigid Body Displacement / The Three Position Problem / The Four Position Problem / Design Problems

ISBN: 0-534-95279-8, ISBN-13: 978-0-534-95279-2 This book is intended as a supplement for undergraduate courses in Kinematics or Dynamics of Mechanisms, taught in Mechanical Engineering departments. As a MATLAB® supplement, it can be used with any standard textbook. The emphasis of the text is integrating the computational power of MATLAB® into the analysis and design of mechanisms. This book applies the use of MATLAB® to the study of kinematics and dynamics of mechanisms. This text is intended as a useful guide for readers interested in understanding kinematics, or as a reference for practicing mechanical engineers. It provides detailed instruction and examples showing how to use MATLAB® (increasingly, the software program of choice among engineers for complex computations) and its accompanying simulation environment, SIMULINK®, to develop powerful and accurate computer simulations of constrained mechanical systems.

Key Features

• Integrates the use of MATLAB® and SIMULINK® into the kinematics course. • Introduces the concept of a kinematic simulation for mechanisms. • Allows for fully dynamic simulations without advanced Lagrangian or Hamiltonian Mechanics. • Detailed case studies of real engineering problems, using methods described in the text. • Discusses the role of simulations in the mechanical design process.

Mechatronics

eBook

implement control of mechatronics systems. Software code examples are presented in C, MATLAB®, and Visual Basic Express. • Coverage of PIC microcontrollers as well as the interfacing of microcontrollers/PCs and mechatronic components using techniques such as asynchronous serial, synchronous serial, USB, and Ethernet interfacing. • A companion laboratory book containing mechatronics lab exercises designed to give students guided, hands-on experience with application of the concepts covered in the text. • Contains illustrative real-world examples and case studies, as well as descriptions of several simple-to-build experimental systems. • Example problems, concept questions, problems, and basic laboratory exercises can be found in most chapters. • Instructor’s Solution Manual, Annotated PowerPoints, and Lecture Builder PowerPoints can be found on the accompanying Instructor Companion website.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-111-57669-6, ISBN-13: 978-1-111-57669-1 SI Version Instructor’s Solutions Manual ISBN: 1-111-57703-X, ISBN-13: 978-1-111-57703-2

Fundamentals of Mechatronics

Also Available - Best Buy Bundles

ISBN: 1-111-56901-0, ISBN 13: 978-1-111-56901-3

Also Available in SI Units

ISBN: 1-111-56902-9, ISBN-13: 978-1-111-56902-0 The objective of Fundamentals of Mechatronics is to cover both hardware and software aspects of mechatronics systems in a single text, giving a complete treatment to the subject matter. The text focuses on application considerations and relevant practical issues that arise in the selection and design of mechatronics components and systems. The text uses several programming languages to illustrate the key topics. Different programming platforms are presented to give instructors the choice to select the programming language most suited to their course objectives. A separate laboratory book, with additional exercises is provided to give guided hands-on experience with many of the topics covered in the text.

Key Features

• Includes coverage of the essential topics in mechatronics including analog and digital circuits, basic electronics, microcontrollers, data acquisition and interfacing, control software, sensors and actuators, and feedback control. • Emphasis is placed on structured software development. Software concepts are applicable for both microcontrollers and PCbased systems. • Discusses software topics such as timing, task/ states, graphical user interfaces, and realtime operating systems that are needed to

Fundamentals of Mechatronics + Laboratory Exercises in Mechatronics ISBN: 1-133-64365-5, ISBN-13: 978-1-133-64365-4 SI Version - Fundamentals of Mechatronics + Laboratory Exercises in Mechatronics ISBN: 1-133-64364-7, ISBN-13: 978-1-133-64364-7

ISBN: 1-111-57025-6, ISBN-13: 978-1-111-57025-5

Also Available in SI Units

ISBN: 1-111-57974-1, ISBN-13: 978-1-111-57974-6 This book contains mechatronics laboratory exercises that are designed to give the student hands-on experience with applications of the concepts covered in a mechatronics course. 14 laboratory exercises are included plus a section that has a list of suggested extended or final projects. The first six laboratory exercises are designed to illustrate basic measurements, electrical circuits and electronic concepts. Later exercises focus on microcontrollers, timing and state-transition diagrams, sensors, stepper motors, and feedback control. Lab safety rules and a general equipment list is also included.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-133-11158-0, ISBN-13: 978-1-133-11158-0 SI Version Instructor’s Solutions Manual ISBN: 1-133-11159-9, ISBN-13: 978-1-133-11159-7

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MECHANICAL ENGINEERING •

eBook

Key Features • •

Mechatronics System Design Second Edition

Devdas Shetty, University of Hartford Richard A. Kolk, Pace Controls, Philadelphia

• • •

ISBN: 1-439-06198-X, ISBN-13: 978-1-439-06198-5

Also Available in SI Units

ISBN: 1-4390-6199-8, ISBN-13: 978-1-439-06199-2 This text by Shetty and Kolk, blends the pertinent aspects of mechatronics—system modeling, simulation, sensors, actuation, real time computer interfacing, and control—into a single unified result suitable for use in the college-level mechatronic curriculum. Students are introduced to all the topics needed to develop a good understanding of the basic principles used in mechatronics technology, through the use of examples, problems and case studies, all of which can be quickly and affordably assembled and investigated in laboratory settings. Core aspects are combined with practical industrial applications and are presented in an optimal way for understanding. The book features extensive coverage of the modeling and simulation of physical systems made possible by blockdiagrams, the modified analogy approach to modeling, and state-of the-art visual simulation software. A collection of case studies drawn from a variety of industries (complete with parts, lists, setup, and instructions) are used to support the authors’ applied, design-oriented approach. Readers of this text will be equipped with all the tools necessary to plan, test, and implement a well designed mechatronic system.

New to this Edition • •

•

• •

Simulation and Real-Time Interfacing using National Instrument’s LabView has been used in addition to VisSim. Numerous design examples and end-ofchapter problems have been added to help students understand the basic mechatronics methodology. A simple motion control example, which is carried out over the 8 chapters, allows coverage of the different elements of mechatronics systems progressively. Current trends in mechatronics and smart manufacturing are presented in the first chapter. Illustration of block diagram approach and emphasis on the comprehensive use of mathematical analysis, simulation,

modeling, control, and real time interfacing in implementing case studies. Expanded coverage of sensors, real time interfacing, multiple input and multiple output systems.

•

Includes an overview and explanation of mechatronics from a model-based perspective. Uses a Modified Analogy Approach for creating dynamical models of physical systems. Presents a thorough discussion of classical control with the incorporation of real-world constraints. Gives a discussion of analog and digital hardware components for real-time computer interfacing. Incorporates a collection of case studies, complete with parts list, suitable for laboratory exercises. Includes a summary of recent advances in the mechatronics field and future trends.

Ancillaries

Instructor’s Solutions Manual ISBN: 1-439-06200-5, ISBN-13: 978-1-439-06200-5 SI Version Instructor’s Solutions Manual ISBN: 1-439-06227-7, ISBN-13: 978-1-439-06227-2

response of dynamic systems; and an introduction to feedback control systems and their analysis. An appendix is provided with a short introduction to MATLAB®, as it is frequently used within the text as a computational tool, a programming tool, and a graphical tool. SIMULINK®, a MATLAB® based simulation and modeling tool, is discussed in chapters where the development of models use either the transfer function approach or the statespace method.

Key Features

• Each chapter concludes with a detailed summary as well as problems for students. • Further examples are provided for most chapters where necessary. • Instructor’s Solutions Manual is available, providing completely worked-out solutions to problems. • M-Files available for download online. • PowerPoints available for download online.

Ancillaries

Instructor’s Solution Manual ISBN: 0-495-24463-5, ISBN-13: 978-0-495-24463-9 SI Version Instructor’s Solutions Manual ISBN: 0-495-47180-1, ISBN-13: 978-0-495-47180-6

System Dynamics & Control/Response

Principles of Industrial Instrumentation and Control Systems Chennakesava R. Alavala, Jawaharlal Nehru Technological

System Dynamics and Response

University- Hyderabad

ISBN: 81-315-0915-X, ISBN-13: 978-8-131-50915-9

ISBN: 0-534-54930-6, ISBN-13: 978-0-534-54930-5

Also Available in SI Units

ISBN: 0-495-43854-5, ISBN-13: 978-0-495-43854-0 As engineering systems become increasingly interdisciplinary, knowledge of both mechanical and electrical systems has become an asset within the field of engineering. All engineers should have general facility with modeling of dynamic systems and determining their response, and it is the objective of this book to provide a framework for that understanding. The study material is presented in four distinct parts: the mathematical modeling of dynamic systems; the mathematical solution of the differential equations and integro differential equations obtained during the modeling process; the

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This book includes comprehensive discussions on the measurement techniques of physical variables such as displacement, time, count, frequency, stress and strain, force, pressure, fluid flow, liquid level, and temperature. Other major variables discussed in the book include moisture, humidity, density, viscosity, torque, power, speed, acceleration and vibration, and sound. Static and dynamic haracteristics and error analysis of measurement systems is also covered. Detailed discussion of topics such as basic transducers, signal conditioning, control systems, transfer functions, and stability make the book a complete text for undergraduate students.

Key Features

• Discusses instrumentation methods of important physical variables in a lucid manner. • Incorporates a large number of illustrations for easy and clear understanding of concepts.

MECHANICAL ENGINEERING General Engineering • Includes solved and unsolved problems that aid in grasping important topics. • Contains a large number of review problems.

Vibrations

Ancillaries

Instructor’s Solutions Manual ISBN: 1-439-06213-7, ISBN-13: 978-1-439-06213-5 SI Version Instructor’s Solutions Manual ISBN: 1-111-56867-7, ISBN-13: 978-1-111-56867-2

Key Features: • • • •

eBook

• • •

ISBN: 1-439-06212-9, ISBN-13: 978-1-305-25384-1

Also Available in SI Units

ISBN: 1-439-06214-5, ISBN-13: 978-1-439-06214-2

Vibrations of Mechanical Systems Second Edition

ISBN: 1-305-25384-1, ISBN 13: 978-1-305-25384-1

Also Available in SI Units

ISBN: 1-305-25386-8, ISBN 13: 978-1-305-25386-5

Mechanical Vibrations: Theory and Applications takes an applications-based approach at teaching students to apply previously learned engineering principles, while laying a foundation for engineering design. This text provides a brief review of the principles of dynamics so that terminology and notation are consistent, and applies these principles to derive mathematical models of dynamic mechanical systems. The methods of application of these principles are consistent with popular Dynamics texts. Numerous pedagogical features have been included in the text in order to aid the student with comprehension and retention. These include the development of three benchmark problems that are revisited in each chapter, creating a coherent chain linking all chapters in the book. Also included are learning outcomes, summaries of key concepts including important equations and formulae, fully-solved examples with an emphasis on real-world examples, as well as an extensive exercise set including objective-type questions.

Taking a revolutionary approach to a fascinating topic, this fully updated Second Edition of Vibrations of Mechanical Systems introduces vibration concepts through motivating design problems. The second edition is enhanced by a pedagogically sound two-color design and packed with new and updated computer tools, simulations, figures, and practical examples that enhance understanding of vibration theory, its mathematics, and its relevance to engineering. Senior undergraduate, beginning graduate students, and practicing engineers alike will gain from the strong background in the theory and practice of vibrational analysis and design they need for success in a career in mechanical, aerospace, naval, biomedical, or structural engineering.

Key Features

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• Includes introductory chapters on continuous systems, nonlinear systems, and the finite element method. • Provides flexibility for instructors in application of the free-body diagram method to derive differential equations for onedegree-of-freedom systems. • Include a chapter specifically on two-degree of-freedom systems for those instructors who do not wish to teach the linear algebra necessary to discuss multi-degree-of-freedom systems in general. • Simulation examples using MATLAB® and SIMULINK® are integrated with book.

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New to this Edition: • •

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Additional solved examples have been added to each chapter. New sections on energy methods, as well as new shock and vibration isolation topics in Chapter 10, enhance the presentation. Problems that require computer programming are now marked for easy identification. Answers to selected problems are now available at the back of the book. Additional “think boxes” appear throughout the chapters. New string vibration problem runs through Chapters 4, 5, 6, and 8. Updated paper references and revised problems based on the latest research in the field bring the book completely up-to-date. Video lectures by the author on more complex topics are available online.

Visually appealing and clearly labeled figures help readers grasp the concepts. A learn-through-examples approach motivates and engages readers. All needed background in dynamics and mathematical principles is provided. “Think-boxes” provide additional challenging exercises for motivated students and can be used to stimulate classroom discussions. The text is integrated with MATLAB, the standard engineering programming software. Important MATLAB code snippets enable students to jump start their analysis capabilities. Problems include drills to ensure understanding of the basic concepts, parametric analysis to enhance understanding of key parameters and influence of vibration in design, and computer projects to help students and engineers prepare for real-world problem solving using modern tools. References to the latest published technical papers enable students to further explore topics of interest.

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MindTap for Engineering is a personalized learning experience allowing students to make notes and flashcards, highlight text, save bookmarks, and even hear the text read aloud. Students can complete homework and gradable assessments online, and instructors can customize course content and easily assess progress and student engagement. Instant Access ISBN: 1-305-50287-6; ISBN-13: 978-1-305-50287-1 Printed Access Card ISBN: 1-305-50288-4; ISBN-13: 978-1-305-50288-8 SI Version Instant Access ISBN: 1-305-50286-8; ISBN-13: 978-1-305-50286-4 SI Version Printed Access Card ISBN: 1-305-50289-2; ISBN-13: 978-1-305-50289-5

Ancillaries

Instructor’s Solution Manual ISBN: 1-305-25394-9, ISBN-13: 978-1-305-25394-0 SI Version Instructor’s Solutions Manual ISBN: 1-305-25395-7, ISBN-13: 978-1-305-25395-7

Contents 1.

4. 5.

INTRODUCTION: Historical Note / Relevance of Vibration / Objectives DYNAMICS: A BRIEF REVIEW: Dynamics of a Particle / Dynamics of a Rigid Body / Energy of Vibration / Numerical Solution SDOF SYSTEMS: FREE UNDAMPED RESPONSE: Mass-Spring Model / What Is a Spring? / Energy / Springs in Combination / Geared Shafts / Stiffness Elements SDOF SYSTEMS: FREE DAMPED RESPONSE: Mass-Spring-Damper System / Energy SDOF SYSTEMS: PERIODIC FORCED RESPONSE: Harmonic Excitation / Complex Representation / Total Response / Where Does Damping Come From? / Energy Dissipated for Harmonic Motion / Coulomb Damping / Material Damping / Vibration Isolation / Rotating Unbalance / Periodic Excitation / Forces in Reciprocating Engines

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MECHANICAL ENGINEERING 6. SDOF SYSTEMS: NONHARMONIC EXCITATION: Impulse Excitation / Excitation / Laplace Transform Methods of Solution 7. MULTIPLE DOF SYSTEMS: FREE RESPONSE: An Undamped MDOF Model / DOFmodel for an Automobile / The Zero Eigenvalue / General Theory / Multiple DOF Systems: Free Damped Response 8. MULTIPLE DOF SYSTEMS: FORCED RESPONSE: Harmonic Excitation / Dynamic Vibration Absorber / Modal Analysis 9. CONTINUOUS SYSTEMS:Transverse Vibration of Strings / Longitudinal Vibration of Rods / Torsional Vibration / Transverse Vibration of Beams. 10. EXPERIMENTAL TECHNIQUES: Vibration Transducers / Force Transducers / Exciters / Data Acquisition and Other Equipment

• Integration of analysis, modeling, prediction and design, so students do not develop artificial distinctions between these various tools.

Ancillaries

Instructor’s Solutions Manual ISBN: 0-495-41126-4 ISBN-13: 978-0-495-41126-0

Also Available

Vibrations, First Edition Spanish Version ISBN: 970-686-495-4, ISBN-13: 978-970-686-495-6

Vibrations Second Edition

ISBN: 0-534-55206-4, ISBN-13: 978-0-534-55206-0 Featuring outstanding coverage of both linear and non-linear single-degree-of-freedom and multi-degree-of-freedom systems, this book teaches the use of vibration principles in a broad spectrum of applications. In this introduction for undergraduate students, authors Balakumar Balachandran and Edward B. Magrab present vibration principles in a general context and illustrate the use of these principles through carefully chosen examples from different disciplines. Their balanced approach integrates principles of linear and nonlinear vibrations with modeling, analysis, prediction, and measurement, so that physical understanding of the vibratory phenomena and their relevance for engineering design can be emphasized. The authors also provide design guidelines that are applicable to a wide range of vibratory systems. MATLAB is thoroughly integrated throughout the text.

Key Features

• Examples are relevant to theoretical discussions and are drawn from a wide range of applications: biomechanics, electronic circuit boards, machines, machining processes, micromechanical devices, and structures. • Natural progression from linear to nonlinear systems.

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LETTER FROM THE PRODUCT DIRECTOR Dear Educator,

I am pleased to present you with Cengage Learning’s 2015 Civil Engineering Catalog. As engineering educators, you shape and define the outcomes and standards of engineering education and the future of engineering itself. Cengage Learning is dedicated to providing you and your students with the most accurate and up-to-date learning materials in all areas of engineering by offering an alignment between engineering curricula and real-world engineering experiences. The results are evident in our print and digital texts, as well as online support materials including online homework and assessment, companion websites, links to learning management systems, professional case studies, PowerPoint lecture outlines, e-books for PC’s and mobile devices and much more. Cengage Learning is proud to be leading the way in providing enriched global content and products to the engineering community. With SI/ Metric converted editions of our texts, we continue to meet all global demands. I understand that students with a global perspective are essential for the 21st century engineering profession. Engineering academic programs are rapidly evolving, and there is always a call for new instructional approaches, as well as learning technologies that support enhanced content. We are especially excited to offer MindTap; a fully-online, customizable and personalized teaching experience that seamlessly combines readings, multimedia, activities, and gradable assessments, along with your content to empower and engage students. More than a digital version of the textbook, MindTap allows your students to interact with the content by making notes, highlighting, finding definitions right from the page, and students who have difficulty with reading the textbook can even have the content read out loud. Powerful analytics allow you to monitor the progress of all of your students with ease. I invite you to participate in the growth and development of our global publishing program. If you have ideas for new online courses and print texts that you would like to share, or if you are interested in learning of other ways to contribute to our program, please contact me at by email or telephone. I look forward to your thoughts and insights. Sincerely, Timothy Anderson Product Director, Global Engineering Cengage Learning 20 Channel Center Street Boston, MA 02210 USA Email Timothy.Anderson@cengage.com Telephone 617.289.7824

2015

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