ISBN13:978-0077275563 ISBN10: 007727556X This edition has also been released as: ISBN13: 978-0073529233 ISBN10: 0073529230
Summary: Continuing in the spirit of its successful previous editions, the ninth edition of Beer, Johnston, Mazurek, and Cornwell'sVector Mechanics for Engineersprovides conceptually accurate and thorough coverage together with a significant refreshment of the exercise sets and online delivery of homework problems to your students. Nearly forty percent of the problems in the text are changed from the previous edition.The Beer/Johnston textbooks introduced significant pedagogical innovations i
nto engineering mechanics teaching. The consistent, accurate problem-solving methodology gives your students the best opportunity to learn statics and dynamics. At the same time, the careful presentation of content, unmatched levels of accuracy, and attention to detail have made these texts the standard for excellence.
Summary: Continuing in the spirit of its successful previous editions, the ninth edition of Beer, Johnston, Mazurek, and Cornwell'sVector Mechanics for Engineersprovides conceptually accurate and thorough coverage together with a significant refreshment of the exercise sets and online delivery of homework problems to your students. Nearly forty percent of the problems in the text are changed from the previous edition.The Beer/Johnston textbooks introduced significant pedagogical innovations into engineering mechanics teaching. The consistent, accurate problem-solving methodology gives your students the best opportunity to learn statics and dynamics. At the same time, the careful presentation of content, unmatched levels of accuracy, and attention to detail have made these texts the standard for excellence. ...show less
Edition/Copyright:9TH 10 Cover: Hardback Publisher:McGraw-Hill Publishing Company Year Published: 2010 International: No
View Author Bio
Born in France and educated in France and Switzerland, Ferd held an M.S. degree from the Sorbonne and an Sc.D. degree in theoretical mechanics from the University of Geneva. He came to the United States after serving in the French army during the early part of World War II and had taught for four years at Williams College in the Williams-MIT joint arts and engineering program. Following his service at Williams College, Ferd joined the faculty of Lehigh University where he taught for thirty-seven years. He held several positions, including the University Distinguished Professors Chair and Chairman of the Mechanical Engineering and Mechanics Department, and in 1995 Ferd was awarded an honorary Doctor of Engineering degree by Lehigh University.
Born in Philadelphia, Russ holds a B.S. degree in civil engineering from the University of Delaware and an Sc.D. degree in the field of structural engineering from The Massachusetts Institute of Technology (MIT). He taught at Lehigh University and Worchester Polytechnic Institute (WPI) before joining the faculty of the University of Connecticut where he held the position of Chairman of the Civil Engineering Department and taught for twenty-six years. In 1991 Russ received the Outstanding Civil Engineer Award from the Connecticut Section of the American Society of Civil Engineers.
David holds a B.S. degree in ocean engineering and a M.S. degree in civil engineering from the Florida Institute of Technology, and a Ph.D. degree in civil engineering from the University of Connecticut. He was employed by General Dynamics Corporation Electric Boat Division for five years, where he provided submarine construction support and conducted engineering design and analysis associated with pressure hull and other structures. In addition, he conducted research in the area of noise and vibration transmission reduction in submarines. He then taught at Lafayette College for one year prior to joining the civil engineering faculty at the U.S. Coast Guard Academy, where he has been since 1990. David is currently a member of the American Railway Engineering & Maintenance-of-way Association Committee 15 (Steel Structures), and the American Society of Civil Engineers Committee on Blast, Shock, and Vibratory Effects. He has also worked with the Federal Railroad Administration on their bridge inspection training program. Professional interests include bridge engineering, railroad engineering, tall towers, structural forensics, and blast-resistant design. He is a licensed professional engineer in Connecticut and Pennsylvania.
View Table of Contents
Table of Contents
Preface xii List of Symbols xviii Introduction 1 What Is Mechanics? 2 Fundamental Concepts and Principles 2 Systems of Units 5 Conversion from One System of Units to Another 10 Method of Problem Solution 11 Numerical Accuracy 13 Statics of Particles 15 Introduction 16 Forces in a Plane 16 Force on a Particle: Resultant of Two Forces 16 Vectors 17 Addition of Vectors 18 Resultant of Several Concurrent Forces 20 Resolution of a Force into Components 21 Rectangular Components of a Force. Unit Vectors 27 Addition of Forces by Summing x and y Components 30 Equilibrium of a Particle 35 Newton's First Law of Motion 36 Problems Involving the Equilibrium of a Particle. Free-Body Diagrams 36 Forces in Space 45 Rectangular Components of a Force in Space 45 Force Defined by Its Magnitude and Two Points on Its Line of Action 48 Addition of Concurrent Forces in Space 49 Equilibrium ofa Particle in Space 57 Review and Summary for Chapter 2 64 Review Problems 67 Computer Problems 69 Rigid Bodies: Equivalent Systems of Forces 73 Introduction 74 External and Internal Forces 74 Principle of Transmissibility. Equivalent Forces 75 Vector Product of Two Vectors 77 Vector Products Expressed in Terms of Rectangular Components 79 Moment of a Force about a Point 81 Varignon's Theorem 83 Rectangular Components of the Moment of a Force 83 Scalar Product of Two Vectors 93 Mixed Triple Product of Three Vectors 95 Moment of a Force about a Given Axis 97 Moment of a Couple 107 Equivalent Couples 108 Addition of Couples 110 Couples Can Be Represented by Vectors 110 Resolution of a Given Force Into a Force at O and a Couple 111 Reduction of a System of Forces to One Force and One Couple 122 Equivalent Systems of Forces 123 Equipollent Systems of Vectors 124 Further Reduction of a System of Forces 124 Reduction of a System of Forces to a Wrench 127 Review and Summary for Chapter 3 146 Review Problems 151 Computer Problems 153 Equilibrium of Rigid Bodies 157 Introduction 158 Free-Body Diagram 159 Equilibrium in Two Dimensions 160 Reactions at Supports and Connections for a Two-Dimensional Structure 160 Equilibrium of a Rigid Body in Two Dimensions 162 Statically Indeterminate Reactions: Partial Constraints 164 Equilibrium of a Two-Force Body 183 Equilibrium of a Three-Force Body 184 Equilibrium in Three Dimensions 191 Equilibrium of a Rigid Body in Three Dimensions 191 Reactions at Supports and Connections for a Three-Dimensional Structure 191 Review and Summary for Chapter 4 211 Review Problems 213 Computer Problems 215 Distributed Forces: Centroids and Centers of Gravity 219 Introduction 220 Areas and Lines 220 Center of Gravity of a Two-Dimensional Body 220 Centroids of Areas and Lines 222 First Moments of Areas and Lines 223 Composite Plates and Wires 226 Determination of Centroids by Integration 236 Theorems of Pappus-Guldinus 238 Distributed Loads on Beams 248 Forces on Submerged Surfaces 249 Volumes 259 Center of Gravity of a Three-Dimensional Body: Centroid of a Volume 259 Composite Bodies 262 Determination of Centroids of Volumes by Integration 262 Review and Summary for Chapter 5 274 Review of Problems 278 Computer Problems 281 Analysis of Structures 284 Introduction 285 Trusses 286 Definition of a Truss 286 Simple Trusses 288 Analysis of Trusses by the Method of Joints 289 Joints under Special Loading Conditions 291 Space Trusses 293 Analysis of Trusses by the Method of Sections 303 Trusses Made of Several Simple Trusses 304 Frames and Machines 315 Structures Containing Multiforce Members 315 Analysis of a Frame 315 Frames Which Cease to Be Rigid When Detached from Their Supports 316 Machines 331 Review and Summary for Chapter 6 343 Review Problems 346 Computer Problems 349 Forces in Beams and Cables 353 Introduction 354 Internal Forces in Members 354 Beams 361 Various Types of Loading and Support 361 Shear and Bending Moment in a Beam 362 Shear and Bending-Moment Diagrams 364 Relations among Load, Shear, and Bending Moment 372 Cables 383 Cables with Concentrated Loads 383 Cables with Distributed Loads 384 Parabolic Cable 385 Catenary 394 Review and Summary for Chapter 7 402 Review Problems 405 Computer Problems 408 Friction 411 Introduction 412 The Laws of Dry Friction. Coefficients of Friction 412 Angles of Friction 415 Problems Involving Dry Friction 416 Wedges 431 Square-Threaded Screws 431 Journal Bearings: Axle Friction 440 Thrust Bearings: Disk Friction 442 Wheel Friction: Rolling Resistance 443 Belt Friction 450 Review and Summary for Chapter 8 461 Review Problems 464 Computer Problems 467 Distributed Forces: Moments of Inertia 471 Introduction 472 Moments of Inertia of Areas 473 Second Moment, or Moment of Inertia, of an Area 473 Determination of the Moment of Inertia of an Area by Integration 474 Polar Moment of Inertia 475 Radius of Gyration of an Area 476 Parallel-Axis Theorem 483 Moments of Inertia of Composite Areas 484 Product of Inertia 497 Principal Axes and Principal Moments of Inertia 498 Mohr's Circle for Moments and Products of Inertia 506 Moments of Inertia of Masses 512 Moment of Inertia of a Mass 512 Parallel-Axis Theorem 514 Moments of Inertia of Thin Plates 515 Determination of the Moment of Inertia of a Three-Dimensional Body by Integration 516 Moments of Inertia of Composite Bodies 516 Moment of Inertia of a Body with Respect to an Arbitrary Axis through O: Mass Products of Inertia 531 Ellipsoid of Inertia: Principal Axes of Inertia 532 Determination of the Principal Axes and Principal Moments of Inertia of a Body of Arbitrary Shape 534 Review and Summary for Chapter 9 545 Review Problems 551 Computer Problems 554 Method of Virtual Work 557 Introduction 558 Work of a Force 558 Principle of Virtual Work 561 Applications of the Principle of Virtual Work 562 Real Machines: Mechanical Efficiency 564 Work of a Force during a Finite Displacement 578 Potential Energy 580 Potential Energy and Equilibrium 581 Stability of Equilibrium 582 Review and Summary for Chapter 10 592 Review Problems 595 Computer Problems 597 Fundamentals of Engineering Examination 601 Photo Credits 603 Index 605 Answers to Problems 611
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