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200 13$aAn Engineer's Guide to Mathematica$b[electronic resource]
205   $a1st edition
210   $aHoboken $cWiley$d2014
215   $a1 online resource (453 p.)
300   $aDescription based upon print version of record.
311   $a1-118-82126-2 
327   $aAN ENGINEER'S GUIDE TO MATHEMATICA®; Contents; Preface; Table of Engineering Applications; Part I Introduction; 1 Mathematica® Environment and Basic Syntax; 1.1 Introduction; 1.2 Selecting Notebook Characteristics; 1.3 Notebook Cells; 1.4 Delimiters; 1.5 Basic Syntax; 1.5.1 Introduction; 1.5.2 Templates: Greek Symbols and Mathematical Notation; 1.5.3 Variable Names and Global Variables; 1.6 Mathematical Constants; 1.7 Complex Numbers; 1.8 Elementary, Trigonometric, Hyperbolic, and a Few Special Functions; 1.9 Strings; 1.9.1 String Creation: StringJoin[] and ToString[]
327   $a1.9.2 Labeled Output: Print[], NumberForm[], EngineeringForm[], and TraditionalForm[]1.10 Conversions, Relational Operators, and Transformation Rule; 1.11 Engineering Units and Unit Conversions: Quantity[] and UnitConvert[]; 1.12 Creation of CDF Documents and Documents in Other Formats; 1.13 Functions Introduced in Chapter; Exercises; 2 List Creation and Manipulation: Vectors and Matrices; 2.1 Introduction; 2.2 Creating Lists and Vectors; 2.2.1 Introduction; 2.2.2 Creating a List with Table[]; 2.2.3 Summing Elements of a List: Total[]; 2.2.4 Selecting Elements of a List
327   $a2.2.5 Identifying List Elements Matching a Pattern: Position[]2.3 Creating Matrices; 2.3.1 Introduction; 2.3.2 Matrix Generation Using Table[]; 2.3.3 Accessing Elements of Arrays; 2.4 Matrix Operations on Vectors and Arrays; 2.4.1 Introduction; 2.4.2 Matrix Inverse and Determinant: Inverse[] and Det[]; 2.5 Solution of a Linear System of Equations: LinearSolve[]; 2.6 Eigenvalues and Eigenvectors: EigenSystem[]; 2.7 Functions Introduced in Chapter 2; References; Exercises; 3 User-Created Functions, Repetitive Operations, and Conditionals; 3.1 Introduction
327   $a3.2 Expressions and Procedures as Functions3.2.1 Introduction; 3.2.2 Pure Function: Function[]; 3.2.3 Module[]; 3.3 Find Elements of a List that Meet a Criterion: Select[]; 3.4 Conditionals; 3.4.1 If[]; 3.4.2 Which[]; 3.5 Repetitive Operations; 3.5.1 Do[]; 3.5.2 While[]; 3.5.3 Nest[]; 3.5.4 Map[]; 3.6 Examples of Repetitive Operations and Conditionals; 3.7 Functions Introduced in Chapter; Exercises; 4 Symbolic Operations; 4.1 Introduction; 4.2 Assumption Options; 4.3 Solutions of Equations: Solve[]; 4.4 Limits: Limit[]; 4.5 Power Series: Series[], Coefficient[], and CoefficientList[]
327   $a4.6 Optimization: Maximize[]/Minimize[]4.7 Differentiation: D[]; 4.8 Integration: Integrate[]; 4.9 Solutions of Ordinary Differential Equations: DSolve[]; 4.10 Solutions of Partial Differential Equations: DSolve[]; 4.11 Laplace Transform: LaplaceTransform[] and InverseLaplaceTransform[]; 4.12 Functions Introduced in Chapter; References; Exercises; 5 Numerical Evaluations of Equations; 5.1 Introduction; 5.2 Numerical Integration: NIntegrate[]; 5.3 Numerical Solutions of Differential Equations: NDSolveValue[] and ParametricNDSolveValue[]; 5.4 Numerical Solutions of Equations: NSolve[]
327   $a5.5 Roots of Transcendental Equations: FindRoot[]
330   $a Provides the tools for the reader to generate Mathematica® programs to obtain numerical solutions to a wide range of engineering topics  An Engineer's Guide to Mathematica® provides the tools to be able to generate verifiably correct Mathematica® programs that obtain symbolic and numerical solutions to a wide range of engineering topics, and to display the numerical results with annotated graphics and, when appropriate, interactive graphics.   The first part of the book introduces the fundamentals of Mathematica's syntax and a subset of commands useful in solving eng
606   $aEngineering mathematics
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200 10$aModular Programming Languages $eJoint Modular Languages Conference, JMLC'97 Linz, Austria, March 19-21, 1997, Proceedings /$fedited by Hanspeter Mössenböck
205   $a1st ed. 1997.
210  1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer,$d1997.
215   $a1 online resource (X, 386 p.) 
225 1 $aLecture Notes in Computer Science,$x0302-9743 ;$v1204
300   $aBibliographic Level Mode of Issuance: Monograph
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327   $aFrom programming languages to program construction -- Multi-language, multi-target compiler development: Evolution of the Gardens Point compiler project -- Executable assertions and separate compilation -- Dynamic runtime optimization -- Type inference for late binding: The SmallEiffel Compiler -- An object-oriented database programming environment for Oberon -- Adding persistence to the Oberon-System -- An abstract data type for freezable lists and DAGs -- Types that reflect changes of object usability -- Lightweight parametric polymorphism for Oberon -- Static type checking and method lookup in Plop! -- CDCS: A new development approach for distributed applications in Java -- A messaging architecture for distributed objects in Oberon -- Just-in-time stub generation -- Do the fish really need remote control? A proposal for self-active objects in Oberon -- Combining Oberon with active objects -- Using real time constraints for modularisation -- How well do inheritance mechanisms support inheritance concepts? -- Inheriting synchronization protocols via sound enrichment rules -- Reflection in Oberon -- Developing a full life cycle language -- Scalable modules in Generic Modula-2 -- On extending Java -- Choosing Modula-3 as ?mother-tongue? -- Generative programming (GP) with C++ -- Seamless integration of online services in the Oberon document system.
330   $aThis book constitutes the refereed proceedings of the Joint Modular Languages Conference, JMLC'97, held in Linz, Austria, in March 1997. The 24 revised full papers presented were carefully selected from a total of 55 submissions; also included are full papers of two invited presentations. The book is devoted to languages, techniques, and tools for the development of modular, extensible, and type-safe software systems. Among the programming languages covered are Modula, Oberon, Ada95, Eiffel, Salher, Java, and others. The issues addressed include compiler technology, persistence, data structures, typing, distribution, active objects, real-time programming, inheritance, reflection, languages, etc.
410  0$aLecture Notes in Computer Science,$x0302-9743 ;$v1204
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