2011, ISBN: 9788126530076

Jones & Bartlett India Private Limited/Viva Books, 2010. First edition. Softcover. New. 18 x 24 cm. C is a favored and widely used programming language, particularly within the fields o… Mehr…

Jones & Bartlett India Private Limited/Viva Books, 2010. First edition. Softcover. New. 18 x 24 cm. C is a favored and widely used programming language, particularly within the fields of science and engineering. C Programming Scientists and Engineers with Applications guides readers through the fundamental, as well as the advanced, concepts of the C programming language as it applies to solving engineering and scientific problems. Ideal for readers with no prior programming experience, this text provides numerous sample problems and their solutions in the areas of mechanical engineering, electrical engineering, heat transfer, fluid mechanics, physics, chemistry, and more. It begins with a chapter focused on the basic terminology relating to hardware, software, and problem definition and solution. From there readers are quickly brought into the key elements of C and will be writing their own code upon completion of Chapter 2. Concepts are then gradually built upon, using a strong, structured approach with syntax and semantics presented in an easy-to understand sentence format. Readers will find C programming for Scientists and Engineers with Applications to be an engaging, user-friendly introduction to this popular language. Key features include: · Complete solutions with documentation, code, input, and output are included at the end of each chapter and have been thoroughly run and tested. · Pointers and dynamic pointers are presented in depth with sample code and complete end-of chapter solutions. · Input and output are presented in several ways, including standard input/output and file input/output. · Provides an early introduction of modular programming concepts and functions. · Instructors resources include an instructors manual with solutions to all review and end-of-chapter exercises. Contents: Chapter 1. Introduction to Computers and Programming Concept of Computers and Computer systems: Hardware Components and Functions Software Components and Functions Integration of Hardware and Software Review Questions Modular Programming: Modular Design Structure Charts Functional Modules Review Questions Algorithms and Program Development: Concept of an Algorithm Concept of Programs and Data Procedure for Problem Analysis Solution Design Methodology Concept of Structured Programming Review Questions Program Processing Program Coding Program Compilation Program Execution Program Testing Program Documentation Review Questions Program Processing Environment: Computer System Environment Programming Environment Review Question Samples of Algorithms: Resistance and Voltage of a Parallel Circuit Volume of a Sphere Square Root Approximation Total Pressure of Gaseous Mixture Mass flow Rate of Air Through Pipes Chapter Summary Exercises Chapter 2. Basic Elements of the C programming Language Introduction to C: Structured Language Procedural Language Statically Typed Language Review Questions Constants and Variables: Character Set Identifiers Built-in Data Types Derived Data Types Pointer and Pointer Variables Review Questions Arithmetic Operations and Expressions: Arithmetic Operators and Operations Arithmetic Expressions Assignment Statement Order of Evaluations Use of Parentheses Special Operators Accuracy of Computation C Libraries and Functions Review Questions Overview of Implementation: Formatting of Statements Formatting of a Program Data Design Review Questions First Complete Programs: Sample C Programs Slope of a Straight Line Compression Stress in a Steel Column Set of Simultaneous Equations Area of a Scalene Triangle Volume of Sphere Chapter Summary Exercises Chapter 3.Input and Output Input and Output Functions: Formatted Input and Output Functions Standard Input Function Standard Output Function Review Questions File Input and Output: Printed Pages: 855. NA, Jones & Bartlett India Private Limited/Viva Books, 2010, 6, Jones & Bartlett India Private Limited/Viva Books, 2010. First edition. Softcover. New. 18 x 24 cm. C is a favored and widely used programming language, particularly within the fields of science and engineering. C Programming Scientists and Engineers with Applications guides readers through the fundamental, as well as the advanced, concepts of the C programming language as it applies to solving engineering and scientific problems. Ideal for readers with no prior programming experience, this text provides numerous sample problems and their solutions in the areas of mechanical engineering, electrical engineering, heat transfer, fluid mechanics, physics, chemistry, and more. It begins with a chapter focused on the basic terminology relating to hardware, software, and problem definition and solution. From there readers are quickly brought into the key elements of C and will be writing their own code upon completion of Chapter 2. Concepts are then gradually built upon, using a strong, structured approach with syntax and semantics presented in an easy-to understand sentence format. Readers will find C programming for Scientists and Engineers with Applications to be an engaging, user-friendly introduction to this popular language. Key features include: · Complete solutions with documentation, code, input, and output are included at the end of each chapter and have been thoroughly run and tested. · Pointers and dynamic pointers are presented in depth with sample code and complete end-of –chapter solutions. · Input and output are presented in several ways, including standard input/output and file input/output. · Provides an early introduction of modular programming concepts and functions. · Instructor’s resources include an instructor’s manual with solutions to all review and end-of-chapter exercises. Contents: Chapter 1. Introduction to Computers and Programming Concept of Computers and Computer systems: Hardware Components and Functions • Software Components and Functions • Integration of Hardware and Software • Review Questions • Modular Programming: Modular Design • Structure Charts • Functional Modules • Review Questions • Algorithms and Program Development: Concept of an Algorithm • Concept of Programs and Data • Procedure for Problem Analysis • Solution Design Methodology • Concept of Structured Programming • Review Questions • Program Processing • Program Coding • Program Compilation • Program Execution • Program Testing • Program Documentation • Review Questions • Program Processing Environment: Computer System Environment • Programming Environment • Review Question • Samples of Algorithms: Resistance and Voltage of a Parallel Circuit • Volume of a Sphere • Square Root Approximation • Total Pressure of Gaseous Mixture • Mass flow Rate of Air Through Pipes • Chapter Summary • Exercises Chapter 2. Basic Elements of the C programming Language Introduction to C: Structured Language • Procedural Language • Statically Typed Language • Review Questions • Constants and Variables: Character Set • Identifiers • Built-in Data Types • Derived Data Types • Pointer and Pointer Variables • Review Questions • Arithmetic Operations and Expressions: Arithmetic Operators and Operations • Arithmetic Expressions • Assignment Statement • Order of Evaluations • Use of Parentheses • Special Operators • Accuracy of Computation • C Libraries and Functions • Review Questions • Overview of Implementation: Formatting of Statements • Formatting of a Program • Data Design • Review Questions • First Complete Programs: Sample C Programs • Slope of a Straight Line • Compression Stress in a Steel Column • Set of Simultaneous Equations • Area of a Scalene Triangle • Volume of Sphere • Chapter Summary • Exercises Chapter 3.Input and Output Input and Output Functions: Formatted Input and Output Functions • Standard Input Function • Standard Output Function • Review Questions • File Input and Output: Printed Pages: 855., Jones & Bartlett India Private Limited/Viva Books, 2010, 6, Jones & Bartlett India Private Limited/Viva Books, 2010. First edition. Softcover. New. 18 x 24 cm. C is a favored and widely used programming language, particularly within the fields of science and engineering. C Programming Scientists and Engineers with Applications guides readers through the fundamental, as well as the advanced, concepts of the C programming language as it applies to solving engineering and scientific problems. Ideal for readers with no prior programming experience, this text provides numerous sample problems and their solutions in the areas of mechanical engineering, electrical engineering, heat transfer, fluid mechanics, physics, chemistry, and more. It begins with a chapter focused on the basic terminology relating to hardware, software, and problem definition and solution. From there readers are quickly brought into the key elements of C and will be writing their own code upon completion of Chapter 2. Concepts are then gradually built upon, using a strong, structured approach with syntax and semantics presented in an easy-to understand sentence format. Readers will find C programming for Scientists and Engineers with Applications to be an engaging, user-friendly introduction to this popular language. Key features include: · Complete solutions with documentation, code, input, and output are included at the end of each chapter and have been thoroughly run and tested. · Pointers and dynamic pointers are presented in depth with sample code and complete end-of –chapter solutions. · Input and output are presented in several ways, including standard input/output and file input/output. · Provides an early introduction of modular programming concepts and functions. · Instructor’s resources include an instructor’s manual with solutions to all review and end-of-chapter exercises. Contents: Chapter 1. Introduction to Computers and Programming Concept of Computers and Computer systems: Hardware Components and Functions • Software Components and Functions • Integration of Hardware and Software • Review Questions • Modular Programming: Modular Design • Structure Charts • Functional Modules • Review Questions • Algorithms and Program Development: Concept of an Algorithm • Concept of Programs and Data • Procedure for Problem Analysis • Solution Design Methodology • Concept of Structured Programming • Review Questions • Program Processing • Program Coding • Program Compilation • Program Execution • Program Testing • Program Documentation • Review Questions • Program Processing Environment: Computer System Environment • Programming Environment • Review Question • Samples of Algorithms: Resistance and Voltage of a Parallel Circuit • Volume of a Sphere • Square Root Approximation • Total Pressure of Gaseous Mixture • Mass flow Rate of Air Through Pipes • Chapter Summary • Exercises Chapter 2. Basic Elements of the C programming Language Introduction to C: Structured Language • Procedural Language • Statically Typed Language • Review Questions • Constants and Variables: Character Set • Identifiers • Built-in Data Types • Derived Data Types • Pointer and Pointer Variables • Review Questions • Arithmetic Operations and Expressions: Arithmetic Operators and Operations • Arithmetic Expressions • Assignment Statement • Order of Evaluations • Use of Parentheses • Special Operators • Accuracy of Computation • C Libraries and Functions • Review Questions • Overview of Implementation: Formatting of Statements • Formatting of a Program • Data Design • Review Questions • First Complete Programs: Sample C Programs • Slope of a Straight Line • Compression Stress in a Steel Column • Set of Simultaneous Equations • Area of a Scalene Triangle • Volume of Sphere • Chapter Summary • Exercises Chapter 3.Input and Output Input and Output Functions: Formatted Input and Output Functions • Standard Input Function • Standard Output Function • Review Questions • File Input and Output: Printed Pages: 855., Jones & Bartlett India Private Limited/Viva Books, 2010, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, Wiley India Pvt. Ltd, 2011. 2nd edition. Softcover. New. This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first edition, the book has been completely revised, with each chapter reorganized and updated. The purpose of the book is to apply the principles of thermodynamics, fluid mechanics, and heat transfer to the analysis of internal combustion engines. The text also features modern web-based computational methods. Java based computational applets are used for solution of problems in engine thermodynamics and friction. Printed Pages: 384., Wiley India Pvt. Ltd, 2011, 6<

2011, ISBN: 9788126530076

CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including hea… Mehr…

CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640. Heat Transfer in Single and Multiphase SystemsGreg F. Naterer9780849310324, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640., CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640., CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, Wiley India Pvt. Ltd, 2011. 2nd edition. Softcover. New. This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first edition, the book has been completely revised, with each chapter reorganized and updated. The purpose of the book is to apply the principles of thermodynamics, fluid mechanics, and heat transfer to the analysis of internal combustion engines. The text also features modern web-based computational methods. Java based computational applets are used for solution of problems in engine thermodynamics and friction. Printed Pages: 384., Wiley India Pvt. Ltd, 2011, 6<

2011, ISBN: 9788126530076

CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including hea… Mehr…

CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640. Heat Transfer in Single and Multiphase SystemsGreg F. Naterer9780849310324, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640., CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009. Softcover. New. Heat transfer problems in multiphase systems arise in a range of applications and disciplines, including heat exchangers, power generation, and materials processing. For the first time in one book, Heat Transfer in Single and Multiphase Systems covers the fundamentals of heat transfer and addresses all types of multiphase systems. This unified treatment allows readers to better appreciate the analogies, similarities, and common themes of multiphase systems. For each class of multiphase flow, the author discusses terminology, flow classifications, two-phase flow maps, and a range of solution techniques for multiphase problems, including differential, integral, and computation methods. Printed Pages: 640., CRC Press/Star Educational Books Distributor Pvt. Ltd, 2009, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, Wiley India Pvt. Ltd, 2011. 2nd edition. Softcover. New. This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first edition, the book has been completely revised, with each chapter reorganized and updated. The purpose of the book is to apply the principles of thermodynamics, fluid mechanics, and heat transfer to the analysis of internal combustion engines. The text also features modern web-based computational methods. Java based computational applets are used for solution of problems in engine thermodynamics and friction. Printed Pages: 384., Wiley India Pvt. Ltd, 2011, 6<

2011, ISBN: 9788126530076

McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gi… Mehr…

McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508. NA, McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, McGraw Hill Education, 2005. First edition. Softcover. New. This new text, intended for the senior undergraduate finite element course in civil or mechanical engineering departments, gives students a solid, practical understanding of the principles of the finite element method within a variety of engineering applications. Hutton discusses basic theory of the finite element method while avoiding variational calculus, instead focusing upon the engineering mechanics and mathematical background that may be expected of senior engineering students. The text relies upon basic equilibrium principles, introduction of the principle of minimum potential energy, and the Galerkin finite element method, which readily allows application of finite element analysis to nonstructural problems. The text is software-independent, making it flexible enough for use in a wide variety of programs, and offers a good selection of homework problems and examples. A Book Website is also included, with PowerPoint images of key figures; complete problem solutions (password protected); the FEPC finite element program for student use; instructions on FEPC and its use with the text; and links to commercial FEA sites. Key features # Simple, straightforward approach to the FEM that is appropriate for undergraduates. # Hutton avoids variational calculus in this text, instead relying upon the mathematical and engineering mechanics background typical of senior undergraduate students. This approach makes the material more accessible to students, and enables them to quickly apply the method to practical problems and projects. # Numerous applied examples and problems. # Examples and problems from mechanical engineering, aero, and civil engineering are included in each chapter to motivate students with examples from their area of study. # Good coverage of heat transfer and fluids applications in FEA. # Many books are weak on non-structural applications; Hutton provides good, balanced coverage. # Book Website, which includes the FEPC finite element program. # Readers can use FEPC, a limited node 2D FEA program, to actually work on basic problems and projects. Table of contents Chapter 1 Basic Concepts of the Finite Element Method Chapter 2 Stiffness Matrices, Spring and Bar Elements Chapter 3 Truss Structures: The Direct Stiffness Method Chapter 4 Flexure Elements Chapter 5 Method of Weighted Residuals Chapter 6 Interpolation Functions for General Element Formulation Chapter 7 Applications in Heat Transfer Chapter 8 Applications in Fluid Mechanics Chapter 9 Applications in Solid Mechanics Chapter 10 Structural Dynamics Appendix A Matrix Mathematics Appendix B Equations of Elasticity Appendix C Solution Techniques for Linear Algebraic Equations Appendix D The Finite Element Personal Computer Program Appendix E Problems for Computer Solution Index Bookmark and Share Specimen Copy Order/Buy Related Products Printed Pages: 508., McGraw Hill Education, 2005, 6, Wiley India Pvt. Ltd, 2011. 2nd edition. Softcover. New. This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first edition, the book has been completely revised, with each chapter reorganized and updated. The purpose of the book is to apply the principles of thermodynamics, fluid mechanics, and heat transfer to the analysis of internal combustion engines. The text also features modern web-based computational methods. Java based computational applets are used for solution of problems in engine thermodynamics and friction. Printed Pages: 384. NA, Wiley India Pvt. Ltd, 2011, 6<

2011, ISBN: 8126530073

[EAN: 9788126530076], Neubuch, [PU: Wiley India Pvt. Ltd], NA, This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first … Mehr…

[EAN: 9788126530076], Neubuch, [PU: Wiley India Pvt. Ltd], NA, This book presents a modern approach to the study of internal combustion engines. Building upon the foundation of the first edition, the book has been completely revised, with each chapter reorganized and updated. The purpose of the book is to apply the principles of thermodynamics, fluid mechanics, and heat transfer to the analysis of internal combustion engines. The text also features modern web-based computational methods. Java based computational applets are used for solution of problems in engine thermodynamics and friction. Printed Pages: 384., Books<