Lots of Engineering Resources InSide. If you interest, Post a Request NOW...
2SI AASHTO Abaqus Actix Analyzer ADINA Adobe Acrobat Airports AISC Algorithms Aluminium Animation ANSYS APF Nexus Aquaveo Architecture Artificial Intelligence ASCE ASDIP Ashampoo Asphalt ASTM Autocad Autodesk Bentley BetonExpress BIMware MASTER BitCoin Blast Books Bridges Buildings CAD Calculus CCleaner Cement Chasm Consulting Civil 3D Clay Coastal Structures Codes ComingSoon Computer Engineering Concrete Conference Books CorelCAD Corrosion Courses/Lessons Cranes CSI CTI Vespa2 Daemon Tools Dams Data Analysis Data Mining Deep Freeze Deep Learning Design and Build Websites DiCad Strakon Dictionary Digital Canal DimSoln Dlubal Drainage Dredging Dynamics Earthquake Earthworks EC2 Reinforcement EC3 Steel Connections EC5 Timber Connections Economy Elasticity EnerCalc English Language Ensoft Entertainment Environmental Engineering Equipments Erosion ESPRI ETABS Eurocode Excavation Excel Expansive Soils FIDES DV-Partner Finite Element Model Fire Safety Fluid Mechanics Forensic Engineering Formulas Fortran Foundations Foxit Phantom FRP Game of Thrones Geo-Slope Geo5 Geoenvironmental Engineering Geographic Information Systems Geology Geomechanics Geomembranes Geosolve GeoStru GeoStudio Geosynthetics GeoTec Elpla Geotechnical Engineering Golden Software Graitec Grammar Grapher Ground Anchors Groundwater Grouting Gstarsoft Harry Potter Highways Historic Structures HTML5 Hydraulics Hydrology IBM IceCream Ebook Reader IDEA StatiCa IELTS IES Ikon Science InfraWorks Itasca Flac2D Java KESZ ConSteel Landslides LaTeX Limcon LimitState: GEO Lindo Linear Algebra Lingo Liquefaction LPile Lusas Malwarbytes Management Maple MapViewer Masonry Walls Materials Mathematica Maths MathType MATLAB Mechanical Engineering Mechanics Metaheuristic Algorithms Microsoft MicroStation Midas Minitab Money Movies Nanocomposites Neural Networks NovoTech Nuclear Power Plants Numerical Mathematics OaSys Octave Office Offshore OLGA Optimization Pavements PC Games PDF Phase2 Physics Piles PipeLines Pipesim Plants Plasticity Plaxis Polymath Polymer Power GEOPAK Powerpoint Precast Prestressed Concrete Pro Sap Proektsoft Programming Projects PROKON ProStructures ProtaStructure PTC MathCad Python QuickConcreteWall QuickConcretWall QuickFooting QuickMasonary QuickRWall R Language Radar System Railways RAM RCDC Regression Analysis Reinforced Concrete Reinforced Masonry Retaining Structures RetainPro Revit RISA Risk Analysis Roads RocDoc Rock Mechanics Rocscience Roofs S-Frame S.T.A. DATA 3Muri SAFE Safety Salford Predictive Modeler SAP2000 SCAD Office Schedule it Schlumberger SCIA Engineer Security Seepage Settle 3D Sewage ShapeBuilder Shotcrete Slide Slope Stability Sludge Smart Cities Snow Loads Softwares Soil Improvement Soil Mechanics SoilOffice SoilWorks SPSS STAAD.Foundation STAAD.Pro Standards Stat-Ease Stata Statics Statistics Steel Stone Strater StruCalc Structural Designer Structural Office StructurePoint Structures StruSoft Surfer Surveying Swarm Intelligence System Mechanic Tableau Technical Drawing Technology Tedds Tekla Testing The Big Bang Theory Thermodynamics Timber TOEFL Topology Torrent Traffic Transmission Lines Transportation Engineering Trimble Tunnels Turbo Pascal TV Series TweakBit Unsaturated Visual Basic Visual Integrity VisualAnalysis VisualFoundation VisualPlate VisualShearWall Water Welding Wind Loads Windows WinRAR Wolfram Wood Word

Numerical and Analytical Methods for Scientists and Engineers

October 08, 2019
Daniel Dubin ... 633 pages - Publisher: Wiley-Interscience; (May, 2003) ... Language: English - ISBN-10: 0471266108 - ISBN-13: 978-0471266105.

Utilizing state-of-the-art software to facilitate solutions to real-world problems: Practitioners in the field of physical science are continually faced with a variety of complex, real-world problems, the solution of which requires a working knowledge of both analytical and numerical techniques. An Introduction to Mathematical and Computational Physics Using Mathematica® is designed to help prospective scientists develop a practical, working knowledge of these techniques using the latest, most efficient electronic methodologies. Written from the perspective of a physicist rather than a mathematician, the text focuses on modern practical applications in the physical and engineering sciences, attacking these problems with a range of numerical and analytical methods, both elementary and advanced. Incorporating the widely used and highly praised Mathematica® software package, the author offers solution techniques for the partial differential equations of mathematical physics such as Poisson’s equation, the wave equation, and Schrödinger’s equation, including Fourier series and transforms, Green’s functions, the method of characteristics, grids, Galerkin and simulation methods, elementary probability theory, and statistical methods. The incorporation of Mathematica® offers students a wealth of practical benefits in that it: Requires little or no previous computer experience + Offers maximum flexibility and sophistication + Delivers easy access to the important ideas behind the various numerical methods + Facilitates important but often tedious analytic calculations + Is easily adapted to the application of other related software packages. Designed for both advanced undergraduate and graduate students in the physical and engineering sciences, as well as professionals who want to learn these methods, An Introduction to Mathematical and Computational Physics Using Mathematica® is also provided electronically on an accompanying CD. The electronic version contains the full text of the book, along with animations, user-modifiable source code, and links to related Web material.

Numerical and Analytical Methods for Scientists and Engineers, Using Mathematica, Daniel Dubin


Post a Comment

If you have a question about anything that isn't answered on this website, please use the contact form here. We will do our best to get back to you within 72 hours during the work week. Please let us know if you experience any difficulties, or if we can improve our interface in any way. We also value and welcome requests for new resources that you would like to see on GeoTeknikk. GeoTeknikk.COM has a SKYPE account. You can add GeoTeknikk to your Contacts there. We can meet and chat for sharing more demands...

Contact Form

Name

Email *

Message *

Theme images by blue_baron. Powered by Blogger.