How to Get Mathematica
Mathematica is currently installed in the following locations:
Computer labs
- All open computer labs on campus, including: MAGC 2.202, ENGR 1.220, and the open labs in the ACSB building
Mathematica can also be installed on:
Student personally owned machines
Follow the directions below to download from the Wolfram User Portal.
- Create an account (New users only):
- Go to user.wolfram.com and click "Create Account"
- Fill out form using a @utrgv.edu email, and click "Create Wolfram ID"
- Check your email and click the link to validate your Wolfram ID
- Request the download and key:
- Fill out this form to request an Activation Key
- Click the "Product Summary page" link to access your license
- Click "Get Downloads" and select "Download" next to your platform
- Run the installer on your machine, and enter Activation Key at prompt
- Create an account (New users only):
- Hands-on Start to Mathematica (videos)
Follow along in Mathematica as you watch this multi-part screencast that teaches you the basics—how to create your first notebook, calculations, visualizations, interactive examples, and more.
- Hands-on Start to Wolfram Mathematica and Programming with the Wolfram Language (book)
Learn Mathematica at your own pace from authors with 50+ years of combined Mathematica experience—with hands-on examples, end-of-chapter exercises, and authors' tips that introduce you to the breadth of Mathematica with a focus on ease of use.
- What's New in Mathematica 10
Provides examples to help you get started with new functionality in Mathematica 10, including machine learning, computational geometry, geographic computation, and device connectivity.
- How To Topics
Access step-by-step instructions ranging from how to create animations to basic syntax information.
- Learning Center
Search Wolfram's large collection of materials for example calculations or tutorials in your field of interest.
- Mathematica for University Research—Free video course
Explore Mathematica's high-level and multi-paradigm programming language, support for parallel computing and GPU architectures, built-in functionality for specialized application areas, and multiple publishing and deployment options for sharing your work.
- Utilizing HPC and Grid Computing—Free video course
Learn how to create programs that take advantage of multicore machines or available clusters.
- Field-Specific Applications
Learn what areas of Mathematica are useful for specific fields.
Mathematica Tutorials
The first three tutorials are excellent for new users, and can be assigned to students as homework to learn Mathematica outside of class time.
Research with Mathematica
Rather than requiring different toolkits for different jobs, Mathematica integrates the world's largest collection of algorithms, high-performance computing capabilities, and a powerful visualization engine in one coherent system, making it ideal for academic research in just about any discipline.