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The digital physics based on Mathematica" has four chapters, including electric fields, magnetic fields, numerical solution and trajectory of dynamics differential equation, and quantum mechanics. In addition, it has two appendices. The research methods and programming design ideas in many examples have important teaching and academic value. The readers can master physics concepts much easier than in traditional textbooks. You can learn the basic numerical methods of solving physics problems and master all kinds of programming skills of Mathematica by running the examples.
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