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Mathematica 10 Now Available! For more than twenty-five years, Mathematica has defined your the art in technical computing and provided the primary computation environment for numerous innovators, educators, students, while others around the world.
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For Modern Technical Computing, With energetic development and consistent vision for twenty five years, Mathematica stands alone in the huge array of dimensions, unique in the support for todays technical computing environments and workflows.
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Get started with any project with assistance from 150, 000 examples inside the Documentation Center, nearly 10, 000 open-code Demonstrations inside Wolfram Demonstrations Project plus a host of other resources.
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Mathematica is founded on the breakthrough Wolfram Language.
The unique knowledge-based symbolic language that grew beyond Mathematica, and today powers the Mathematica system.
The worlds largest integrated web of algorithms, providing broad and deep built-in capabilities for Mathematica.
The uniquely flexible document-based interface that permits you to mix executable code, richly formatted text, dynamic graphics, and interactive interfaces in Mathematica.
The core software system that implements the Wolfram Language and Mathematica across a variety of local and cloud computational environments.
The infrastructure technology that allows you to run Mathematica Online with just a browser.
The uniquely broad, continuously updated knowledgebase that powers WolframAlpha and supplies computable real-world data for usage in Wolfram products.
The 500 functions from Mathematica 1 continue to be in Mathematica 10 but now there are nearly 4, 500 more, and also a lot of different important new ideas that dramatically extend the vision and scope from the system.
When Mathematica first appeared in 1988, it revolutionized technical computing and each year since that time its kept going, introducing new functions, new algorithms and new ideas.
Math was Mathematica s first great application area and building on that success, Mathematica has systematically expanded in a vast choice of areas, covering all sorts of technical computing and beyond.
Mathematica has followed an amazing trajectory of accelerating innovation for additional than 25 years or so made possible at each and every stage by systematically building on its increasingly large capabilities until now.
Versions of Mathematica arent just incremental software updates; each successive you are a serious achievement that extends the paradigm of computation in new directions and introduces important new ideas.
If youre one with the lucky individuals who used Mathematica 1, the code you wrote 25 years or so ago will still work and youll recognize the core ideas of Mathematica 1 inside the vast system that may be Mathematica today.
Mathematica has always stayed true to its core principles and careful design disciplines, and can continually progress and integrate new functionality and methodologies without ever being forced to backtrack.
Mathematica is Wolframs original, flagship product primarily directed at technical computing for R D and education. Based on the Wolfram Language, Mathematica is 100% suitable for other core Wolfram products.
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More robust import of image file formats, including JPEG and TIFF
Refined support for international language and translation, including Spanish spell checking and Chinese search
Mathematica 10.3 rapidly carries on build out areas first introduced in Version 10, while further refining already best-in-class capabilities.
Access to identities and properties on the extensive bunch of mathematical functions inside the Wolfram Language, via MathematicalFunctionData
New geo-computation functionality like TravelDirections, TravelDistance, and even more for computing travel times, methods, and related data
Ability to group, copy, and identify specific installments of entities to get more automated and efficient computation
More convenient network programming selections for host lookup, IP address representation, and socket connection
Improved functionality for processing and analysis of text elements and structure, including definitions, elements of speech, translations, plus more
Unequaled core Wolfram Language capabilitiesРІenhanced by over 100 new functionsРІplus increasing cloud operations and connectivity to external data and services make Mathematica 10.2 a must-have upgrade.
Time series and statistics updates, including support for intensity measures in Histogram
Added operations for lists and associations, including automatic eliminating elements using Nothing
Expanded cloud usage and deployment alternatives for permissions control, scheduled tasks, data logging, and local objects
Image processing processes for computational photography including tone mapping, exposure combination, and much more
An international Alphabet, including a full variety of technical along with other character sets and encodings
Support to get more geometry and data file formats, with dramatically improved STL import/export and streamlined JSON
Version 10.1 adds many enhancements to performance, coverage, and convenienceРІas well as several major new algorithmic achievements including image identification and user-defined grammar rule deployment.
New list operations for handling sequences, taking largest elements, etc.
31 new string manipulation functions, including word and sentence splitting
Direct support for byte arrays, raw image formats, etc.
Performance, documentation, and interoperability improvements to Dataset
Support for OS X 10.9.5 and OS X 10.10
New EmbedCode support for languages, including R, Scala, Perl, and Ruby
New optimizations, supported inputs, performance improvements, and bug fixes for geometric computation
Numerous visualization bug fixes, new icons for maps, plus a wider array of inputs for NumberLinePlot
RLink compatibility update for R 3.1.
New optimizations, supported inputs, and path types for geographic computation and regions
Improved coverage of supported types in SemanticImport and optimizations for handling anonymous columns, empty fields, headerless data, and import of files with long file names
Updates and improvements to an array of areas including weather data, associations, symbolic integration, and measure computations over implicit regions
First version in accordance with the complete Wolfram Language, with well over 700 new functions
Highly automated machine learning, including pre-trained models for the variety of tasks
Integrated geometric computation, including symbolic geometry, mesh-based regions, and named and formula regions
Advanced geographic computation, such as powerful new GeoGraphics function for map construction
Expanded random process framework, including hidden Markov models and automated time series analysis
Built-in plot themes to simply tailor plots for specific audiences, from business reports to technical articles
Finite element analysis, enhanced PDEs, symbolic delay differential equations, and hybrid differential equations
Formal math operators, dimensional variables, and extended algebra and graph computation
Automatic report generation and string, file, and HTML templating
Connectivity for dealing with external devices, services, and APIs, plus URL manipulation
Improved performance and stability for image processing functions, extending coverage for Image3D
Various Input Assistant improvements: full support of Linux platforms, better support for dual monitors, better option placeholders, and eliminated repeated options
Highly integrated units support, including free-form linguistic entry, conversions, and dimensional consistency checking across graphics and numeric and symbolic calculations
New graph and network analysis, including a built-in link for Facebook, LinkedIn, Twitter, plus much more
Major new data science, probability, and statistics functionality including survival and reliability analysis, Markov chains, queueing theory, time series, and stochastic differential equations
Built-in symbolic tensors with support for arrays of the rank, dimension, and symmetry
Improved stability, speed, and security with the CDF browser plugin
Many new automatic simplifications for derived distributions, including affine transformations, sums of variables, parameter mixtures, and censored and truncated distributions
Improved export of Real and Real32 images to TIFF, to be that will work with more external TIFF image viewers
Generation of recent statistical distributions completely from data, formulas, and other distributions
More than 60 exotic equity option solvers, as well as over 100 built-in financial indicators
Enhanced 2D and 3D graphics, including texture mapping and hardware-accelerated 3D rendering
New tutorials, How to guides, and screencasts
New on-demand curated data, including genomic data, protein data, and current and historical weather data
Comprehensive spline support, including NURBS
Many symbolic computation breakthroughs, including discrete calculus, sequence recognition, and transcendental roots
Improved interactivity under Linux with compositing window managers, for example Compiz
Several additional documentation enhancements, including performance improvements, indexing, and link trails
Evaluate Notebook menu item, and Magnification submenu
Dynamic interactivity, allowing sophisticated interactive interfaces to get created from single lines of input
Language for data integration, including automatic integration of countless standard data formats
Load-on-demand curated data for math, physics, chemistry, finance, geography, linguistics, and even more
Automated computational aesthetics, with algorithmic optimization for visual presentation
MathematicaMark 5.2 benchmark now covering grids and clusters
Additional import-export formats, including XLS and AVI
High-performance optimization and linear programming, including interior point method
Flexible import and export of DICOM, PNG, SVG, and sparse matrix formats
Statistics enhancements, including new ANOVA package
New import and export formats, including FITS and STDS
Support for XHTML export, including stylesheets
Extended MathML 2.0 support
Macintosh OS X version introduced Version 4.1.5 in 2001
New and faster import and export filters for Excel files, tabular data, and compressed BMP, DXF, and STL
Direct import and export from over 20 standard data, graphics, and sound file formats
Extended range and improved functions for data analysis including correlation, convolution, as well as a new Fourier transform algorithm
Ten other packages put in areas for instance three-dimensional contour plotting, variational calculus, and music
New help features, including online manuals on X Windows as well as a Function Browser on Macintosh and NeXT
New packages added areas for instance nonlinear fitting, binary file manipulation, Dirac delta functions, and sound synthesis
Many new graphics options and features, including axes and labels for 3D graphics
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Mathematica Cookbook allows you to master the applications core principles by walking you through real-world problems. Ideal for browsing, this book includes recipes for working together with numerics, data structures, algebraic equations, calculus, and statistics. Youll also take off for exotic territory with recipes for data visualization using 2D and 3D graphic tools, image processing, and music.
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5.10 Transforming XML Using Recursive Functions Finance, Statistics Business Analysis
Announcing Wolfram SystemModeler 4.2
SystemModeler 4.2Announcing Wolfram SystemModeler 4.2
It has become quite a while since I graduated from college in Germany that has a degree in mathematics. Of course, I have lots of memories of long study nights, difficult homework assignments, plus a general not enough a dating. But I also vividly remember needing to take programming classes. I had done my better to avoid these provided that I could. But when they became section of my curriculum, I could not continue ignoring them. Not being a native English speaker, I was not just dealing using the concept of programming, which has been completely abstract in my experience I also was required to find my way around function names always shown in English. Though I struggled in those classes, I successfully graduated, and years later am now section of a project that could have taught me to be tremendously in the past: the Wolfram Language Worldwide Translations Project.
The Wolfram Language Worldwide Translations Project provides any non-English-speaking programming novice by having an effortless way into the Wolfram Language. It aims introducing the Wolfram Language while at the same time addressing any not enough English speaking skills.
This chapter introduces several functions for finite element analysis. First, one- and two-dimensional Lagrange and Hermite interpolation shape functions are introduced, and systematic methods to generating these kinds of elements are discussed with many different examples. You can design elements with desired features by manipulating terms within their basic functions. You can generate interpolation functions for several typical elements as well as less conventional ones. Then you may create graphical representations these interpolation functions. Finally, many useful auxiliary functions may also be included.
You can solve many practical problems employing a finite element strategy of plane elasticity problems. Since finite element analysis is definitely an applied science, gaining experience with analysis is very crucial for that effectiveness of results. You can best acheive this by examining the intermediate steps on the analysis carefully and performing a great deal of calculations with some other loading and meshing conditions. This chapter introduces functions for both the analysis as well as the intermediate steps from the analysis, as well as graphical tools for clear representation of results. Mesh generation utilizing the isoparametric formulation can be discussed with numerous examples.
5.2 One-Dimensional Shape Functions
With the package Element1D, it is possible to compute the contour functions for one-dimensional Lagrangian- and Hermitian-type elements. You perform Hermite interpolation by fitting a curve to both an ordinate field variable as well as its slope its derivative with respect for the local coordinate at nodal points. The simplest Hermitian interpolation is between two nodal points from which the field variable as well as its derivative, with respect for the local coordinate, are known. Structural Mechanics offers the function HermiteElement1D for computing the Hermitian interpolation functions for one-dimensional elements. Lagrange interpolation is often a special case of Hermite interpolation. In Lagrange interpolation, you get shape functions fitting a curve for that field variables of any problem without concerning its derivatives.
Generate most effective Hermitian interpolation function,, that's linear, one-dimensional, and possesses only two nodal points. The zero-order Hermitian interpolation functions may also be known as Lagrange elements. Since for Lagrange elements will not require the continuity on the slope, an order of interpolation is zero, that is certainly, n 0.
The length with the element is L as well as the coordinate is x with this example.
In3: sfun0HermiteElement1D0, L, 0, x