I mean it's great to say the least. In order to get more familiar with graphics support when using wolfram language see these link , link , link. Some examples here and here.
High Energy Physics - Mathematica Examples
Wolfram language has this interesting thing called Manipulate. A powerful feature that allows you to construct graphical user interface for all sorts of mind blowing things. It's essentialy a high level function which is built using lower level components, it allows its user to quickly build interactive content to present and explore ideas.
Follow this link to learn more about it. See some examples here. With that said, I wish you good luck and hope you will be able to achieve your goals using wolfram programming language. Sign up to join this community.
The best answers are voted up and rise to the top. Home Questions Tags Users Unanswered. Learning Mathematica for Physics Ask Question. Asked 3 years, 2 months ago. Active 3 years, 2 months ago.
Andrew R. Ochadlick, Jr., Career Physicist
Viewed times. I came across: reference. Junaid Aftab Junaid Aftab 2 2 silver badges 7 7 bronze badges. Help please.
A Physicist's Guide to Mathematica
I need to urgently get started. I misread your comment. List Manipulation Lists, I cannot emphasize enough how often you will end up working with this data structure. Documentation Wolfram language has by far the best documentation I have every seen in my life.
Functional Programming This topic is a beast of its own and is worth exploring to do great things using wolfram language. Also, see for more information Functional Programming Rule-Based Programming Object-Oriented Programming Data Visualization In wolfram language there is a truly large amount of functions which allow you to present your data in a way you want it to be presented; to name a few - Plot , ListPlot , Histogram , ParametricPlot , DensityPlot and much more Check out some examples here , here and here Graphics Wolfram language has also an extensive support for visualizing all sorts of geometric compositions in 1D, 2D or 3D.
Daniel Dubin. A first course in mathematical and computational physics for undergraduates at the junior level. Students learn to solve real-world problems using both analytic and numerical methods. The course assumes familiarity with introductory calculus, linear algebra and analytic solution of simple ODEs. You can do so by citing the two FeynCalc papers:.
Shtabovenko, R. Mertig and F.
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- Andrew R. Ochadlick, Jr., Career Physicist, Physics links, Mathematica programs.
- List Manipulation?
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Dismiss Join GitHub today GitHub is home to over 40 million developers working together to host and review code, manage projects, and build software together. Sign up. Mathematica package for algebraic calculations in elementary particle physics. Mathematica Branch: master New pull request. Find File. Download ZIP. Sign in Sign up. Launching GitHub Desktop Go back. Launching Xcode