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Last update: T_KDM (20.04.2012)
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Last update: T_KDM (20.04.2012)
The course provides an introduction to the Mathematica system and its applications in solving mathematical problems. |
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Last update: doc. RNDr. Antonín Slavík, Ph.D. (29.04.2020)
The number of absences during regular classes plus the number of unsolved exercise sets assigned during distance learning should not exceed 2. |
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Last update: T_KDM (24.04.2017)
Mathematica Documentation Center (built-in documentation).
Hazrat, R.: Mathematica. A Problem-Centered Approach (2nd edition). Springer, 2015
Wellin, P. R.: Programming with Mathematica. An Introduction. Cambridge University Press, 2013.
Mangano, S. Mathematica Cookbook.: O'Reilly Media, 2010.
Boccara N.: Essentials of Mathematica (With Applications to Mathematics and Physics). Springer, 2007.
Wagon, S.: Mathematica in Action (3rd edition). Springer, 2010. |
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Last update: doc. RNDr. Antonín Slavík, Ph.D. (16.01.2024)
A lecture with exercises in a computer lab. Alternatively, it is possible to study online sources available from https://www.karlin.mff.cuni.cz/~slavik/info.html. |
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Last update: T_KDM (24.04.2017)
Symbolic and numeric mathematics. Solving equations. Linear algebra, mathematical analysis. Plotting functions, curves and surfaces, discrete data. Interpolation and approximation. Random numbers.
Lists. Rules. The internal representation of expressions. Predicates. Patterns. Pure functions, functional programming. 2D and 3D graphics. Procedural programming. Strings, importing and exporting files. Dynamic interactivity. |