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Keywords: mechanic engineer
Your search found 234 books Now viewing Books 1 - 25 In stock items ship IMMEDIATELY. Other titles usually ship within 2-3 days. |
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| *ACP-U OF UTAH MECHANICAL ENGINEERING SYLLABUS, 1st Ed. | |||||||
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| Custom Publishing - CENGAGE | ISBN-10: 0324066120 ISBN-13: 9780324066128 | PGS: 2 | List: 1.95 YOUR PRICE: 1.85 | ||||
| 700 Solved Problems In Vector Mechanics for Engineers: Dynamics | |||||||
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| McGraw-Hill | S | ISBN-10: 0070566879 ISBN-13: 9780070566873 | PGS: N/A | List: 24.95 YOUR PRICE: 23.70 | |||
| 800 Solved Problems Invector Mechanics for Engineers, Vol. I: Statics | |||||||
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| McGraw-Hill | S | ISBN-10: 0070568359 ISBN-13: 9780070568358 | PGS: N/A | List: 27.95 YOUR PRICE: 26.55 | |||
| A Maple Manual for Engineering Mechanics: Dynamics - Computational Edition, 1st Ed. | |||||||
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| Contents: Introduction Numerical Calculations Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Vectors and Matrices Chapter 1 - Kinematics of a Particle Inverse Dynamics Problem Computational Window 1.1 Computational Window 1.2 Sample Problem 1.1 Sample Problem 1.2 Sample Problem 1.6 - Method 1 Sample Problem 1.6 - Method 2 Sample Problem 1.7 Sample Problem 1.10 Sample Problem 1.11 Sample Problem 1.12 Sample Problem 1.14 Sample Problem 1.15 Sample Problem 1.17 Sample Problem 1.18 Sample Problem 1.19 Sample Problem 1.20 Sample Problem 1.22 Sample Problem 1.24 1.5 Relative Motion Sample Problem 1.25 Sample Problem 1.26 Sample Problem 1.34 Sample Problem 1.35 Chapter 2 - Kinematics of Particles Sample Problem 2.1 Sample Problem 2.3 Sample Problem 2.4 Sample Problem 2.5 Sample Problem 2.5 - Modified Sample Problem 2.6 Sample Problem 2.7 Sample Problem 2.8 Sample Problem 2.10 Sample Problem 2.12 Sample Problem 2.13 Sample Problem 2.14 Sample Problem 2.15 Sample Problem 2.17 Sample Problem 2.22 Chapter 3 - Work-Energy and Impulse Momentum - First Integrals of the Motion Impact Problems Sample Problem 3.1 - Case 1 Sample Problem 3.1 - Case 2 Sample Problem 3.1 - Case 3 Chapter 4 - Systems of Particles Sample Problem - Sample Problem 4.2 Sample Problem - Sample Problem 4.3 Chapter 5 - Equilibrium of Rigid Bodies Sample Problem 5.8 Sample Problem 5.14 Sample Problem 5.15 Sample Problem 5.16 Section 5.10 - Analysis of Plane Motion in Terms of Parameter Sample Problem 5.21 Sample Problem 5.23 Sample Problem 5.24 Sample Problem 5.25 Sample Problem 5.26 Sample Problem 5.31 Chapter 6 - Dynamics of Rigid Bodies in Plane Motion Sample Problem 6.1 Sample Problem 6.3a Sample Problem 6.3b Sample Problem 6.3c Sample Problem 6.4 Sample Problem 6.5 Sample Problem 6.6 Sample Problem 6.8 Sample Problem 6.9 Sample Problem 6.9 - Friction Neglected Sample Problem 6.11 Chapter 7 - Power, Work, Energy, Impulse and Momentum of a Rigid Body Sample Problem 7.9 Sample Problem 7.9 - Post Impact Analysis of a Vehicle A Chapter 8 - Three-Dimensional Dynamics of Rigid Bodies Sample Problem 8.2 Sample Problem 8.3 - Eulerian Angles Sample Problem 8.4 8.7 Euler''s Equations of Motion Heavy Top Solution Chapter 9 - Vibration Sample Problem 9.6 Sample Problem 9.9 Sample Problem 9.10 Sample Problem 9.11 Appendix A Sample Problem A.1 Summary This supplement is intended to teach the reader how to solve dynamics problems using Mapler. While the manual suggests ways to use Mapler to enhance your understanding of dynamics and teaches you efficient computational skills, you should feel free to browse the Mapler manual and create your own methods for solving problems and for using Mapler. Quality technical documents can be created entirely within Mapler. These manuals are an example of this, demonstrating the software's capability. As a consequence, the input and output for formats presented in this manual are consistent with actual Mapler input and output. The first chapter is a general introduction to Mapler that concludes with a sample application and can be studied while reading the first chapter of the accompanying text. | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495296104 ISBN-13: 9780495296102 | PGS: 128 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A Maple Manual for Engineering Mechanics: Statics - Computational Edition , 1st Ed. | |||||||
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| Contents: INTRODUCTION 1 - USING MAPLE COMPUTATIONAL SOFTWARE Numerical Calculation Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Application of Maple to a Statics Problem Computational Window 1.1 2 - VECTOR ANALYSIS Computational Solution - Sample Problem 2.5 Maple as a Vector Calculator Computational Window 2.1 - Vector Calculator Computational Window 2.2 - Vector Algebra Computational Window 2.3 - Creating a Unit Vector Computational Window 2.4 - Symbolic Processor Computational Solutions - Sample Problems 2.7-2.8 Solution of Simultaneous Linear Equations Computational Window 2.5 Computational Solutions - Sample Problems 2.9-2.10 Using Maple for Other Matrix Calculations Computational Solution - Sample Problem 2.12 Scalar or Dot Product Computational Window 2.6 Computational Solutions - Sample Problems 2.13-2.14 Vector or Cross Product Between Two Vectors Computational Windows 2.7-2.8 Computational Solutions - Sample Problems 2.16-2.18 3 - PARTICLE EQUILIBRIUM Parametric Solutions Computational Solutions - Sample Problems 3.4-3.6, 3.8 Solution of Nonlinear Algebraic Equations Computational Solutions - Sample Problems 3.9-3.10, 3.13, 3.13*-Soft Springs, 3.14, 3.14*-Vertical Deformation Only, 3.15, 3.15*-Design Variation 4 - RIGID BODIES: EQUIVALENT FORCE SYSTEMS Computational Solutions - Sample Problems 4.4-4.14, 4.16-4.17 5 - DISTRIBUTED FORCES: CENTROIDS AND CENTER OF GRAVITY Numerical and Symbolic Integration Computational Window 5.1 Computational Solutions - Sample Problems 5.1, 5.3 Three-Dimensional Scatter Plots Computational Window 5.2 Computational Solution - Sample Problem 5.4 6 - EQUILIBRIUM OF RIGID BODIES Computational Solutions - Sample Problems 6.4-6.6 *6.6 - Symbolic Generation of Equilibrium Equations *6.6 - Solution of the Six Equations of Equilibrium Computational Solution - Sample Problem 6.7*- Symbolic Generation and Solution of Equilibrium Equations Computational Solution - Sample Problem 6.8*- Computational generation of Equilibrium Equations Computational Solutions - Sample Problems 6.8, 6.10-12*-Symbolic Generation of Equilibrium Equations *6.12 - Numerical Solution *6.12 - Numerical Solution for the Tension in the Cable 7 - ANALYSIS OF STRUCTURES Computational Windows 7.1-7.3 Computational Solution - Figure 7.21 - Method of Sections Computational Solution - Sample Problem 7.2 - Case 1 Computational Solution - Sample Problem 7.2 - Case 2 Computational Solution - Sample Problem 7.3 - Motor Torque Graphs Computational Solution - Sample Problem 7.4 - Equations (a) and (b) Computational Solution - Sample Problem 7.4 - Equations (a) and (c) Computational Solution - Sample Problem 7.4 - Equations (b) and (c) 8 - INTERNAL FORCES IN STRUCTURAL MEMBERS Computational Solution - Sample Problem 8.4 - Symbolic Solution Computational Solution - Sample Problem 8.4 - Numerical Solution (Linear Loading) Computational Solution - Sample Problem 8.4 - Numerical Solution (Sinusoidal Loading) Computational Solution - Sample Problem 8.6 - Maximum Moment Computational Solution - Sample Problem 8.6 - Shear and Moment Diagrams Discontinuity Functions Computational Solution - Sample Problem 8.7 - Shear and Moment Diagrams Computational Solution - Sample Problem 8.7 - Alternate Method Cables Computational Solution - Sample Problem 8.8 - L = 33 ft (Cable Length) Computational Solution - Sample Problem 8.8 - L = 31 ft (Cable Length) Computational Solutions - Sample Problems 8.19-8.10 9 - FRICTION Computational Solution - Sample Problem 9.2 Computational Solution - Sample Problem 9.2-Solution as a Function of the Coefficient of Friction and the Inclination Angle of the Plane Computational Solutions - Sample Problems 9.3-9.4 Wedges Computational Solution - Figure 9.10 - Symbolic Evaluation of Wedge System Computational Solution - Figure 9.10 - Dependency of the Applied Force on the Wedge Angle Computational Solution - Figure 9.10 - Dependency of the Applied Force on the Coefficient of Friction Belt Friction Ratio of Tensions versus the Coefficient of Friction Ratio of Tensions versus the Angle of Contact Ratio of Tensions versus Coefficient of Friction and Contact Angle 10 - MOMENTS OF INERTIA Computational Window 10.1 Principal Second Moments of Area Computational Window 10.2 - Second Moment of Area Computational Solution - Sample Problem 10.5 Eigenvalue Problem Computational Solution - Sample Problem 10.7 - Eigenvalue Solution 11 - VIRTUAL WORK Computational Solution - Sample Problem 11.3 Computational Solution - Sample Problem 11.4 - Slide Problem Computational Solution - Sample Problem 11.4 - Slide Problem (Variation) Computational Solution - Sample Problem 11.7 SUMMARY INDEX This supplement is intended to teach the reader how to solve Statics problems using Maple. While the manual suggests ways to use Maple to enhance your understanding of statics and teach you efficient computational skills, you should feel free to browse the Maple manual and cre | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495296066 ISBN-13: 9780495296065 | PGS: 160 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A Mathcad Manual for Engineering Mechanics: Dynamics - Computational Edition, 1st Ed. | |||||||
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| Contents: INTRODUCTION Numerical Calculator Algebraic Calculations Symbolic Calculations CHAPTER 1 - KINEMATICS OF A PARTICLE 1.4 Inverse Dynamics Problem Effect of Noise in Data Sample Problems 1.1-1.2, 1.6-1.7, 1.10-1.12, 1.14-1.20, 1.22, 1.24 1.5 Relative Motion Sample Problems 1.25-1.26, 1.34-1.35 CHAPTER 2 - KINEMATICS OF PARTICLES Sample Problems 2.1, 2.3-2.8, 2.10, 2.12-2.15, 2.17, 2.22-2.23 CHAPTER 3 - WORK-ENERGY AND IMPULSE-MOMENTUM: THE FIRST INTEGRALS OF MOTION Impact Problems Sample Problem 3.11 CHAPTER 4 - SYSTEM OF PARTICLES Sample Problems 4.2-4.3 CHAPTER 5 - KINEMATICS OF RIGID BODIES Sample Problems 5.8, 5.14-5.16 5.10 Analysis of Plane Motion in terms of a Parameter sample Problems 5.21, 5.23-5.26, 5.31 CHAPTER 6 - DYNAMICS OF RIGID BODIES IN PLANE MOTION Sample Problems 6.1, 6.3-6.6, 6.8-6.9, 6.11 CHAPTER 7 - POWER, WORK, ENERGY, IMPULSE, AND MOMENTUM OF A RIGID BODY Sample Problem 7.9 CHAPTER 8 - THREE-DIMENSIONAL DYNAMICS OF RIGID BODIES Sample Problems 8.2-8.4 CHAPTER 9 - VIBRATION Sample Problems 9.6, 9.9, 9.10-9.11 APPENDIX A INDEX This supplement provides all of the necessary instructions to use Mathcadr Student or Professional software to aid the reader in solving homework problems. It is keyed heavily to the accompanying dynamics text and works through many of the sample problems in detail. While this supplement suggests ways in which to use Mathcadr to enhance your understanding of dynamics and teach you efficient computational skills, you may also browse through the Mathcadr Student manual and think of your own usage of Mathcadr to solve problems and applications in other courses. The first chapter is a general introduction to Mathcadr that concludes with a sample application of Mathcadr to a dynamics problem and can be studied while reading Chapter 1 of the accompanying text. | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495296090 ISBN-13: 9780495296096 | PGS: 144 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A Mathcad Manual for Engineering Mechanics: Statics - Computational Edition, 1st Ed. | |||||||
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| Contents: INTRODUCTION CHAPTER 1 - USING MATHCAD COMPUTATIONAL SOFTWARE Numerical Calculation Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Application of Mathcad to a Statics Problem CHAPTER 2 - VECTOR ANALYSIS Sample Problem 2.5: Mathcad Solution Mathcad as a Vector Calculator Sample Problem 2.7: Mathcad Solution Sample Problem 2.8 Solution of Simultaneous Linear Equations Sample Problem 2.9 Sample Problem 2.10: Mathcad Solution Using Mathcad for Other Matrix Calculations Sample Problem 2.12: Mathcad Solution Scalar or Dot Product Sample Problems 2.13 and 2.14: Mathcad Solutions Sample Problem 2.14 Vector or Cross Product Between Two Vectors Sample Problem 2.16 Sample Problem 2.17 Sample Problem 2.18 Sample Problem 2.19 CHAPTER 3 - PARTICLE EQUILIBRIUM Parametric Solutions Sample Problem 3.4 Sample Problem 3.5 Sample Problem 3.6 Sample Problem 3.8 Solution of Nonlinear Algebraic Equations Sample Problem 3.9 Sample Problem 3.10 Sample Problem 3.13 Sample Problem 3.14 Sample Problem 3.15 CHAPTER 4 - RIGID BODIES: EQUIVALENT FORCE SYSTEMS Vector or Cross product Between Two Vectors Sample Problem 4.4 Sample Problem 4.5 Sample Problem 4.6 Sample Problem 4.7 Sample Problem 4.8 Sample Problem 4.9 Sample Problem 4.10 Sample Problem 4.11 Sample Problem 4.12 Sample Problem 4.13 Sample Problem 4.14 Sample Problem 4.16 Sample Problem 4.17 CHAPTER 5 - DISTRIBUTED FORCES: CENTROIDS AND CENTER OF GRAVITY Numerical and Symbolic Integration Sample Problem 5.1 Sample Problem 5.3 Three-Dimensional Scatter Plots CHAPTER 6 - EQUILIBRIUM OF RIGID BODIES Sample Problem 6.4 Sample Problem 6.5 Sample Problem 6.6 Sample Problem 6.7 Sample Problem 6.8 Sample Problem 6.10 Sample Problem 6.11 Symbolic Generation of Equilibrium Equations Sample Problem 6.12 CHAPTER 7 - ANALYSIS OF STRUCTURES Sample Problem 7.2 Sample Problem 7.3 Sample Problem 7.4 CHAPTER 8 - INTERNAL FORCES IN STRUCTURAL MEMBERS Sample Problem 8.4 Sample Problem 8.6 Discontinuity Functions Cables Sample Problem 8.8 Sample Problem 8.9 Sample Problem 8.10 CHAPTER 9 - FRICTION Sample Problem 9.2 Sample Problem 9.3 Sample Problem 9.4 Wedges Belt Friction CHAPTER 10 - MOMENTS OF INERTIA Principal Second Moments of Area Sample Problem 10.5 Eigenvalue Problem CHAPTER 11 - VIRTUAL WORK Sample Problem 11.3 Sample Problem 11.4 Sample Problem 11.7 SUMMARY INDEX This supplement to Engineering Mechanics: Statics provides all of the necessary instructions to use Mathcad Student of Professional software to aid the reader in solving homework problems and working through the sample problems within the text. It is keyed heavily to the accompanying Statics text and works through many of the sample problems in detail. While this supplement suggests ways in which to use Mathcad to enhance your understanding of statics and teach you efficient computational skills, you may also browse through the Mathcad Student manual and think of your own usage of Mathcad to solve statics problems and applications in other courses. The manual consists of 11 chapters. The first chapter is a general introduction to Mathcad that concludes with a sample application of Mathcad to a statics problem and can be studied while reading Chapter 1 of the accompanying Statics text. The following 10 chapters present appropriate Mathcad solutions for some of the sample problems given in the text. Chapter 1 - Using Mathcad Computational Software Numerical Calculation Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Application of Mathcad to a Statics Problem Along with solutions to sample problems, other topics covered within this manual include: Mathcad as a Vector Calculator; Solution of Simultaneous Linear Equations; Using Mathcad for Other Matrix Calculations; Scalar of Dot Product; Vector or Cross Product Between Two Vectors; Parametric Solutions; Solution of Nonlinear Algebraic Equations; Vector or Cross Product Between Two Vectors; Numerical and Symbolic Integration; Three-Dimensional Scatter Plots; Symbolic Generation of Equilibrium Equations; Discontinuity Functions; Cables; Wedges; Belt Friction; Principle Second Moments of Area; Eigenvalue Problems | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495295949 ISBN-13: 9780495295945 | PGS: 192 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A Mathematica Manual for Engineering Mechanics: Dynamics - Computational Edition, 1st Ed. | |||||||
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| Contents: Introduction Numerical Calculations Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Vectors and Matrices Chapter 1 - Kinematics of a Particle Inverse Dynamics Problem Computational Window 1.1 Computational Window 1.2 Sample Problem 1.1 Sample Problem 1.2 Sample Problem 1.6 - Method 1 Sample Problem 1.6 - Method 2 Sample Problem 1.7 Sample Problem 1.10 Sample Problem 1.11 Sample Problem 1.12 Sample Problem 1.14 Sample Problem 1.15 Sample Problem 1.17 Sample Problem 1.18 Sample Problem 1.19 Sample Problem 1.20 Sample Problem 1.22 Sample Problem 1.24 1.5 Relative Motion Sample Problem 1.25 Sample Problem 1.26 Sample Problem 1.34 Sample Problem 1.35 Chapter 2 - Kinematics of Particles Sample Problem 2.1 Sample Problem 2.3 Sample Problem 2.4 Sample Problem 2.5 Sample Problem 2.5 - Modified Sample Problem 2.6 Sample Problem 2.7 Sample Problem 2.8 Sample Problem 2.10 Sample Problem 2.12 Sample Problem 2.13 Sample Problem 2.14 Sample Problem 2.15 Sample Problem 2.17 Sample Problem 2.22 Chapter 3 - Work-Energy and Impulse-Momentum Impact Problems Sample Problem 3.1 - Case 1 Sample Problem 3.1 - Case 2 Sample Problem 3.1 - Case 3 Chapter 4 - Systems of Particles Sample Problem 4.2 Sample Problem 4.3 Chapter 5 - Equilibrium of Rigid Bodies Sample Problem 5.8 Sample Problem 5.14 Sample Problem 5.15 Sample Problem 5.16 Section 5.10 - Analysis of Plane Motion in Terms of Parameters Sample Problem 5.21 Sample Problem 5.23 Sample Problem 5.24 Sample Problem 5.25 Sample Problem 5.26 Sample Problem 5.31 Chapter 6 - Dynamics of Rigid Bodies in Plane Motion Sample Problem 6.1 Sample Problem 6.3a Sample Problem 6.3b Sample Problem 6.3c Sample Problem 6.4 Sample Problem 6.5 Sample Problem 6.6 Sample Problem 6.8 Sample Problem 6.9 Sample Problem 6.9 - Friction Neglected Sample Problem 6.11 Chapter 7 - Power, Work, Energy, Impulse and Momentum of a Rigid Body Sample Problem 7.9 Sample Problem 7.9 - Post Impact Analysis of Vehicle A Chapter 8 - Three Dimensional Dynamics of Rigid Bodies Sample Problem 8.2 Sample Problem 8.3 - Eulerian Angles Sample Problem 8.4 8.7 Euler''s Equations of Motion Heavy Top Solution Chapter 9 - Vibration Sample Problem 9.6 Sample Problem 9.9 Sample Problem 9.10 Sample Problem 9.11 Appendix A Sample Problem A.1 Summary This supplement is intended to teach the reader how to solve statics/dynamics problems using Mathematicar. It is closely coupled to the accompanying text and works through many of the sample problems for each chapter in detail. The manual was created in Mathematicar and demonstrates how quality technical documents can be created entirely using the software. Chapter 1 is a general introduction to Mathematca that concludes with a sample application and can be studied while reading Chapter 1 of the accompanying text. | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 049529599X ISBN-13: 9780495295990 | PGS: 128 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A Mathematica Manual for Engineering Mechanics: Statics - Computational Edition, 1st Ed. | |||||||
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| Contents: INTRODUCTION CHAPTER 1 - USING MATHEMATICA COMPUTATIONAL SOFTWARE Numerical Calculation Working with Functions Symbolic Calculations Solving Algebraic Equations Graphs and Plots Application of Mathematica to a Statics Problem Computational Window 1.1 CHAPTER 2 - VECTOR ANALYSIS Computational Solution - Sample Problem 2.5 Mathematica as a Vector Calculator Computational Window 2.1 - Vector Calculator Computational Window 2.2 - Vector Algebra Computational Window 2.3 - Creating a Unit Vector Computational window 2.4 - Symbolic Processor Computational Solution - Sample Problem 2.7 Computational Solution - Sample Problem 2.8 Solution of Simultaneous Linear Equations Computational Window 2.5 Computational Solution - Sample Problem 2.9 Computational solution - Sample Problem 2.10 Using Mathematica for Other matrix Calculations Computational Solution - Sample Problem 2.12 Scalar or Dot Product Computational Window 2.6 Computational Solution - Sample Problem 2.13 Computational Solution - Sample Problem 2.14 Vector or Cross Product Between Two Vectors Computational Window 2.7 Computational Window 2.8 Computational Solution - Sample Problem 2.16 Computational Solution - Sample Problem 2.17 Computational Solution - Sample Problem 2.18 CHAPTER 3 - PARTICLE EQUILIBRIUM Parametric Solutions Computational Solution - Sample Problem 3.4 Computational Solution - Sample Problem 3.5 Computational Solution - Sample Problem 3.6 Computational Solution - Sample Problem 3.8 Solution of nonlinear Algebraic Equations Computational Solution - Sample Problem 3.9 Computational Solution - Sample Problem 3.10 Computational Solution - Sample Problem 3.13 Computational Solution - Sample Problem 3.13 - Soft Springs Computational Solution - Sample Problem 3.14 Computational Solution - Sample Problem 3.14 - Vertical Deformation Only Computational Solution - Sample Problem 3.15 Computational Solution - Sample Problem 3.15 - Design Variation CHAPTER 4 - RIGID BODIES: EQUIVALENT FORCE SYSTEMS Computational Solution - Sample Problem 4.4 Computational Solution - Sample Problem 4.5 Computational Solution - Sample Problem 4.6 Computational Solution - Sample Problem 4.7 Computational Solution - Sample Problem 4.8 Computational Solution - Sample Problem 4.9 Computational Solution - Sample Problem 4.10 Computational Solution - Sample Problem 4.11 Computational Solution - Sample Problem 4.12 Computational Solution - Sample Problem 4.13 Computational Solution - Sample Problem 4.14 Computational Solution - Sample Problem 4.16 Computational Solution - Sample Problem 4.17 CHAPTER 5 - DISTRIBUTED FORCES: CENTROIDS AND CENTER OF GRAVITY Numerical and Symbolic Integration Computational Window 5.1 Computational Solution - Sample Problem 5.1 Computational Solution - Sample Problem 5.3 Three-Dimensional Scatter Plots Computational Window 5.2 Computational Solution - Sample Problem 5.4 CHAPTER 6 - EQUILIBRIUM OF RIGID BODIES Computational Solution - Sample Problem 6.4 Computational Solution - Sample Problem 6.5 Computational Solution - Sample Problem 6.6 Computational Solution - Sample Problem 6.6 - Symbolic Generation of Equilibrium Equations Computational Solution - Sample Problem 6.6 - Solution of the Six Equations of Equilibrium Computational Solution - Sample Problem 6.7 - Symbolic Generation and Solution of Equilibrium Equations Computational Solution - Sample Problem 6.8 - Computational Generation of Equilibrium Equations Computational Solution - Sample Problem 6.8 Computational Solution - Sample Problem 6.10 Computational Solution - Sample Problem 6.11 Computational Solution - Sample Problem 6.12 - Symbolic Generation of Equilibrium Equations Computational Solution - Sample Problem 6.12 - Numerical Solution Computational Solution - Sample Problem 6.12 - Numerical Solution for the Tension in the Cable CHAPTER 7 - ANALYSIS OF STRUCTURES Computational Window 7.1 Computational Window 7.2 Computational Window 7.3 Computational Solution - Figure 7.21 - Method of Sections Computational Solution - Sample Problem 7.2 - Case 1 Computational Solution - Sample Problem 7.2 - Case 2 Computational Solution - Sample Problem 7.3 - Motor Torque Graph Computational Solution - Sample Problem 7.3 - Motor Torque Graph Computational Solution - Sample Problem 7.4 - Equations (a) and (b) Computational Solution - Sample Problem 7.4 - Equations (a) and (c) Computational Solution - Sample Problem 7.4 - Equations (b) and (c) CHAPTER 8 - INTERNAL FORCES IN STRUCTURAL MEMBERS Computational Solution - Sample Problem 8.4 - Symbolic Solution Computational Solution - Sample Problem 8.4 - Numerical Solution (Linear Loading) Computational Solution - Sample Problem 8.4 - Numerical Solution (Sinusoidal Loading) Computational Solution - Sample Problem 8.6 - Maximum Moment Computational Solution - Sample Problem 8.6 - Shear and Moment Diagrams Discontinuity Functions Computational Solution - Sample Problem 8.7 - Shear and Moment Diagrams Computational Solution - Sample Problem | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495296074 ISBN-13: 9780495296072 | PGS: 112 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A MATLAB Manual for Engineering Mechanics: Dynamics - Computational Edition, 1st Ed. | |||||||
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| Contents: INTRODUCTION INTRODUCTION TO THE USE OF MATLABr Numerical Calculator Significant Figures Symbolic Math File Saving Defining a Function CHAPTER 1 - KINEMATICS OF A PARTICLE Inverse-Dynamics Problem Sample Problem 1.1-1.2 Solving Differential Equations Sample Problems 1.6-1.7, 1.10, 1.12, 1.14-1.16, 1.18-1.20, 1.22, 1.24-1.26, 1.34-1.35 CHAPTER 2 - KINEMATICS OF PARTICLES Sample Problems 2.1, 2.3-2.8, 2.10, 2.12-2.15, 2.17, 2.22, 2.23 CHAPTER 3 - WORK-ENERGY AND IMPULSE-MOMENTUM: FIRST INTEGRALS OF MOTION Impact Problem Sample Problem 3.11 CHAPTER 4 - SYSTEMS OF PARTICLES Sample Problem 4.2 CHAPTER 5 - KINEMATICS OF RIGID BODIES Sample Problems 5.8, 5.14-5.16 Section 5.10 - Analysis of Plane Motion in Terms of a Parameter Sample Problems 5.21, 5.23-5.26, 5.31 CHAPTER 6 - DYNAMICS OF RIGID BODIES IN PLANE MOTION Sample Problem 6.1: The Tipping Box Sample Problems 6.3-6.6, 6.8-6.9, 6.11 Solution of Nonlinear Algebraic Equations CHAPTER 7 - POWER, WORK, ENERGY, IMPULSE, AND MOMENTUM OF A RIGID BODY Sample Problem 7.9 CHAPTER 8 - THREE-DIMENSIONAL DYNAMICS OF RIGID BODIES Sample Problem 8.3 Solution to the Heavy-Top Problem CHAPTER 9 - VIBRATION Sample Problems 9.6, 9.9-9.11: Forced Response and Resonance APPENDIX A APPENDIX B: THE "mnewt" PROGRAM Some MATLABr Commands Commonly Used in Dynamics INDEX This supplement provides all the necessary instructions to use recent versions of MATLABr software to aid in solving the homework problems and working through the sample problems given in the text. The manual also guides the reader through the use of MATLABr for solving statics/dynamics problems and makes for a good resource for future studies. | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495296082 ISBN-13: 9780495296089 | PGS: 128 | List: 36.95 YOUR PRICE: 35.10 | ||||
| A MATLAB Manual for Engineering Mechanics: Statics - Computational Edition, 1st Ed. | |||||||
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| Contents: This supplement consists of 10 sections. The first section is an introduction to using MATLABr, concluding with a sample statics problem and can be studied while reading Chapter 1 of the Statics text. Nine more sections follow this, one for each of the chapters 2 through 10 of the companion Statics text (Engineering Mechanics: Statics - Computational Edition, by Soutas-Little, Inman, and Balint). Each of these remaining section presents MATLABr solutions for the Sample Problems given in the Statics text. Chapter 1 - Using MATLAB Numerical Calculations Significant Figures Symbolic Calculations Saving Files Defining a Function Graphing Solving an Algebraic Equation Solving a Statics Problem by Using MATLAB Chapter 2 - Vectors MATLAB as a Vector Calculator Solution of Simultaneous Linear Equations Using MATLAB in Other Matrix Calculations Vector or Cross Product An Additional Sample Problem Sample Problems and Solutions from Main Text Chapter 3 - Particle Equilibrium Solution of Nonlinear Algebraic Equations Sample Problems and Solutions from Main Text Chapter 4 - Rigid Bodies: Equivalent Force Systems Vector or Cross Product Between Two Vectors Sample Problems and Solutions from Main Text Chapter 5 - Distributed Forces: Centroids and Center of Gravity Numerical and Symbolic Integration MATLAB as a Programming Language Sample Problems and Solutions from Main Text Chapter 6 - Equilibrium of Rigid Bodies Sample Problems and Solutions from Main Text Chapter 7 - Analysis of Structures Sample Problems and Solutions from Main Text Chapter 8 - Internal Forces in Structural Members Discontinuity Functions Cables Sample Problems and Solutions from Main Text Chapter 9 - Friction Surface Plots Wedges Belt Friction Ration of Tensions Versus Coefficient of Friction and Contact Angle Sample Problems and Solutions from Main Text Chapter 10 - Moments of Inertia Principle Second Moments of Area Eigenvalue Problems Sample Problems and Solutions from Main Text Chapter 11 - Virtual Work Sample Problems and Solutions from Main Text Appendix Solution of systems of Nonlinear Equations in MATLAB Some MATLAB Commands Commonly used in Statics This supplement to Engineering Mechanics: Statics - Computational Edition by Soutas-Little, Inman, and Balint, will provide all the necessary instructions to use recent versions of MATLABr software to aid in solving the homework problems and working through the sample problems. The manual is intended to guide the reader through the use of MATLABr for solving statics problems. It is keyed heavily to the accompanying text and works through many of the sample problems in detail, and solving them through the use of the software. The first section is an introduction to using MATLABr, concluding with a sample statics problem and can be studied while reading Chapter 1 of the Statics text. Nine more sections follow this, one for each of the chapters 2 through 10 of the companion Statics text. Each of these remaining section presents MATLABr solutions for the Sample Problems given in the Statics text. Chapter 1 - Using MATLAB Numerical Calculations Significant Figures Symbolic Calculations Saving Files Defining a Function Graphing Solving an Algebraic Equation Solving a Statics Problem by Using MATLAB As well as sample problems from the text this manual also includes topics such as: MATLAB as a Vector Calculator; Solution of Simultaneous Linear Equations; Using MATLAB in Other Matrix Calculations; Vector or Cross Products; Solution of Nonlinear Algebraic Equations; Vector or Cross Product Between Two Vectors; Numerical and Sybolic Integration; MATLAB as a Programming Language; Discontinuity Functions; Cables; Surface Plots; Wedges; Belt Friction; Ratio of Tensions Versus Coefficient of Friction and Contact Angle; Principle Second Moments of Area; Eigenvalue Problems; Solution of Systems of Nonlinear Equations in MATLAB; Some MATLAB Commands Commonly Used in Statics | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 0495295930 ISBN-13: 9780495295938 | PGS: 176 | List: 36.95 YOUR PRICE: 35.10 | ||||
| Advanced Geotechnical Analyses; Developments in Soil Mechanics and Foundation Engineering - 4, 1st Ed. | |||||||
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| Routledge - TAYLOR & FRANCIS | H | ISBN-10: 1851666230 ISBN-13: 9781851666232 | PGS: N/A | List: 420.00 YOUR PRICE: 399.00 | |||
| Advanced Unsaturated Soil Mechanics and Engineering | |||||||
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| Taylor & Francis | ISBN-10: 0415436796 ISBN-13: 9780415436793 | PGS: 690 | List: 200.00 YOUR PRICE: 190.00 | ||||
| Advances in Engineering Fluid Mechanics: Multiphase Reactor and Polymerization System Hydr | |||||||
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| This volume of the Advances in Engineering Fluid Mechanics Series covers topics in hydrodynamics related to polymerization of elastomers and plastics. Emphasis is given to advanced concepts in multiphase reactor systems often used in the manufacturing of products. This volume is comprised of 30 chapters that address key subject areas such as multiphase mixing concepts, multicomponet reactors and the hydrodynamics associated with their operations, and slurry flow behavior associated with non-Newtonian flows. | |||||||
| Gulf Professional Publishing - ELSEVIER | ISBN-10: 0884154971 ISBN-13: 9780884154976 | PGS: 772 | List: 291.00 YOUR PRICE: 276.45 | ||||
| Advances in Engineering Structures, Mechanics & Construction | |||||||
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The conference highlighted all forms of research and applications related to advances in engineering structures, mechanics and construction. The conference promised to be an interesting event. The technical program involved the presen, From the contents Preface. Dedication.- Plenary Presentations.- Concrete Structures.- Steel Structures.- Cold Formed Steel.- Engineering Mechanics And Applied Mathematics.- Structural Optimization.- Engineering Reliability.- Construction Management.- A | |||||||
| SPRINGER VERLAG | H | ISBN-10: 1402048906 ISBN-13: 9781402048906 | PGS: N/A | List: 249.00 YOUR PRICE: 236.55 | |||
| Advances in Integrated Design and Manufacturing in Mechanical Engineering II | |||||||
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| The 33 papers presented in this book were selected from amongst the 97 papers presented during the sixth edition of the International Conference on Integrated Design and Manufacturing in Mechanical Engineering during 28 sessions. Two keynote papers, one p, | |||||||
| SPRINGER VERLAG | H | ISBN-10: 1402067600 ISBN-13: 9781402067600 | PGS: N/A | List: 149.00 YOUR PRICE: 141.55 | |||
| Alternative Energy Systems | |||||||
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| CONTENTS: 1. Energy in the United States.@p1.1 Energy and Power.@p1.2 Energy Usage and Standard of Living.@p1.3 A Historical Perspective of Energy Usage in the United States.@p1.4 United States Energy Usage in 2007.@p1.5 Worldwide Energy Use.@p1.6 Efficiencies.@p1. | |||||||
| Wiley | ISBN-10: 0470142502 ISBN-13: 9780470142509 | PGS: N/A | List: 119.95 YOUR PRICE: 113.95 | ||||
| An Introduction to Mechanical Engineering, 1st Ed. | |||||||
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| Contents: 1. THE MECHANICAL ENGINEERING PROFESSION. Overview. What is Engineering?. Who are Mechanical Engineers?. Career Paths. Typical Program of Study. Summary. 2. PROBLEM-SOLVING SKILLS. Overview. Unit Systems and Conversions. Dimensional Consistency. Significant Digits. An Error of Units on the Way to Mars. Approximation in Engineering. Problem-Solving Methodology. Summary. 3. MACHINE COMPONENTS AND TOOLS. Overview. Rolling Element Bearings. Flexible Shaft Couplings. Gear Types and Terminology. Belt and Chain Drives. Machine Tools. Summary. 4. FORCES IN STRUCTURES AND FLUIDS. Overview. Forces and Resultants. Moment of a Force. Equilibrium of Forces and Moments. Buoyancy, Drag, and Lift Forces in Fluids. Summary. 5. MATERIALS AND STRESSES. Overview. Tension and Compression. Response of Engineering Materials. Shear. Factor of Safety. Summary. 6. THERMAL AND ENERGY SYSTEMS. Overview. Mechanical Energy, Work, and Power. Heat as Energy in Transit. Energy Conservation and Conversion. Heat Engines and Efficiency. Case Study #1: Internal Combustion Engines. Case Study #2: Electrical Power Generation. Case Study #3: Jet Engines. Summary. 7. MOTION OF MACHINERY. Overview. Rotational Motion. Speed, Torque, and Power in Gearsets. Simple and Compound Geartrains. Planetary Geartrains. Engine and Compressor Mechanisms. Summary. 8. MECHANICAL DESIGN. Overview. High-Level Design Procedure. Case Study in Conceptual Design: Mousetrap-Powered Vehicles. Case Study in Computer-Aided Design: Non-Invasive Medical Imaging. Case Study in Mechanical Design: The Hydra-Matic Transmission. Patents in Engineering. Summary. Appendices. Greek Alphabet. Review of Mathematical Equations. Planetary Geartrain Design Equation. This textbook introduces students to the exciting field of mechanical engineering and helps them appreciate how engineers design the hardware that builds and improves society. Balancing problem-solving skills, design, engineering analysis, real-world applications, and practical technology, author Jonathan Wickert provides students with a solid foundation for future study and contributions in mechanical engineering. By emphasizing six key elements of mechanical engineering in Chapters 3 through 8, Wickert helps students see both the "forest" of mechanical engineering and some important "trees" along the way. Overall, the lively presentation attracts students to engineering, excites them with a view of what to expect in later courses, and provides them with a useful design, problem-solving, and analysis skills. | |||||||
| CL-Engineering - CENGAGE | ISBN-10: 053439132X ISBN-13: 9780534391324 | PGS: 448 | List: 114.95 YOUR PRICE: 109.20 | ||||
| An Introduction to Mechanical Engineering, 2nd Ed. | |||||||
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| 1. THE MECHANICAL ENGINEERING PROFESSION 1.1 Overview 1.2 What Is Engineering? 1.3 Who Are Mechanical Engineers? 1.4 Career Paths 1.5 Typical Program of Study Summary Self-Study and Review Problems References 2. PROBLEM-SOLVING AND COMMUNICATION SKILLS 2.1 Overview 2.2 An Error of Units on the Way to Mars 2.3 Unit Systems and Conversions 2.4 Significant Digits 2.5 Dimensional Consistency 2.6 Estimation in Engineering 2.7 Presenting Engineering Calculations 2.8 Communication Skills in Engineering Summary Self-Study and Review Problems References 3. FORCES IN STRUCTURES AND MACHINES 3.1 Overview 3.2 Forces in Rectangular and Polar Forms 3.3 Resultant of Several Forces 3.4 Moment of a Force 3.5 Equilibrium of Forces and Moments 3.6 Design Application: Rolling-Element Bearings Summary Self-Study and Review Problems References 4. MATERIALS AND STRESSES 4.1 Overview 4.2 Tension and Compression 4.3 Material Response 4.4 Shear 4.5 Engineering Materials 4.6 Factor of Safety Summary Self-Study and Review Problems References 5. FLUIDS ENGINEERING 5.1 Overview 5.2 Properties of Fluids 5.3 Pressure and Buoyancy Force 5.4 Laminar and Turbulent Fluid Flows 5.5 Fluid Flow in Pipes 5.6 Drag Force 5.7 Lift Force Summary Self-Study and Review Problems References 6. THERMAL AND ENERGY SYSTEMS 6.1 Overview 6.2 Mechanical Energy, Work, and Power 6.3 Heat as Energy in Transit 6.4 Energy Conservation and Conversion 6.5 Heat Engines and Efficiency 6.6 Case Study 1: Internal-Combustion Engines 6.7 Case Study 2: Electrical Power Generation 6.8 Case Study 3: Jet Engines Summary Self-Study and Review Problems References 7. MOTION AND POWER TRANSMISSION 7.1 Overview 7.2 Rotational Motion 7.3 Design Application: Gears 7.4 Speed, Torque, and Power in Gearsets 7.5 Simple and Compound Geartrains 7.6 Design Application: Belt and Chain Drives 7.7 Planetary Geartrains Summary Self-Study and Review Problems References 8. MECHANICAL DESIGN 8.1 Overview 8.2 High-Level Design 8.3 Manufacturing Processes 8.4 Patents in Engineering 8.5 Case Study in Conceptual Design: Mousetrap-Powered Vehicles 8.6 Case Study in Computer-Aided Design: Noninvasive Medical Imaging 8.7 Case Study in Machine Design: The Hydra-Matic Transmission Summary Self-Study and Review Problems References A Greek Alphabet B Trigonometry Review Index | |||||||
| Thomson-Engineering - CENGAGE | S | ISBN-10: 0534552978 ISBN-13: 9780534552978 | PGS: 416 | List: 109.95 YOUR PRICE: 104.45 | |||
| An Introduction to Microelectromechanical Systems Engineering, Second Edition | |||||||
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| MEMS: A Technology from Lilliput. The Sandbox: Materials for MEMS. The Toolbox: Processes for Micromachining. MEM Structure and Systems in Industrial and Automotive Applications. Optical MEM Structures and Systems. MEM Structures and Systems for Medical Applications. MEM Structures and Systems for Electronic Applications. Packaging & Reliability for MEMS. Glossary. | |||||||
| ARTECH HOUSE | H | ISBN-10: 1580535909 ISBN-13: 9781580535908 | PGS: 304 | List: 99.00 YOUR PRICE: 94.05 | |||
| An Introduction to Modern Variational Techniques in Mechanics and Engineering | |||||||
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| PrefacePart I: Differential Variational Principles of Mechanics The Elements of Analytical Mechanics Expressed Using the Lagrange--D'Alembert Differential Variational Principle The Hamilton--Jacobi Method of Integration of Canonical Equations Tran | |||||||
| Birkhauser - SV | H | ISBN-10: 0817633995 ISBN-13: 9780817633998 | PGS: 346 | List: 74.95 YOUR PRICE: 71.20 | |||
| An Introduction to the Mechanics of Solids: Second Edition with SI Units, 2nd Ed. | |||||||
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| "This text is concerned with the mechanics of rigid and deformable solids in equilibrium. It has been prepared by members of the Mechanical Engineering Department at the Massachusetts Institute of Technology for use as a text in the first course in applied mechanics.The central aim has been to treat this subject as an engineering science. To this end the authors have clearly identified three fundamental physical considerations which govern the mechanics of solids in equilibrium, and all discussion and theoretical development has been related to these basic considerations." | |||||||
| McGraw-Hill Science/Engineering/Math | S | ISBN-10: 0072380411 ISBN-13: 9780072380415 | PGS: N/A | List: 155.94 YOUR PRICE: 148.14 | |||
| Applications of Computational Mechanics in Geotechnical Engineering V: Proceedings of the 5th International Workshop, G, 1st Ed. | |||||||
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| Taylor & Francis - TAYLOR & FRANCIS | S | ISBN-10: 041543789X ISBN-13: 9780415437899 | PGS: 512 | List: 195.95 YOUR PRICE: 186.15 | |||
| Applied Biomedical Engineering Mechanics, 1st Ed. | |||||||
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| CRC - TAYLOR & FRANCIS | H | ISBN-10: 0824758315 ISBN-13: 9780824758318 | PGS: 552 | List: 139.95 YOUR PRICE: 132.95 | |||
| Applied Engineering Mechanics: Statics and Dynamics | |||||||
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| CRC - TAYLOR & FRANCIS | H | ISBN-10: 0824769457 ISBN-13: 9780824769451 | PGS: N/A | List: 97.95 YOUR PRICE: 93.05 | |||
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