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Last update: doc. RNDr. Jan Vilhelm, CSc. (31.03.2023)
Numerical methods of solving systems of linear equations, including and Gauss generalized inversion. The basic methods of approximation and interpolation of numerical data seiries. The basics of numerical derivation and integration. Fourier transform, its discrete implementation. The nunerical methods taught are so general that they can be used in virtually all disciplines. For students interested in the follow-up master's study of Applied Geology, focusing on applied geophysics, the completion of this course is practically necessary to understand a number of data processing methods in applied geophysics. The course is strongly practically oriented, MATLAB is used to perform calculations. Prior knowledge of MATLAB is an advantage for students, but it is generally assumed that students without previous knowledge of MATLAB also apply. |
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Last update: doc. RNDr. Jan Vilhelm, CSc. (31.03.2023)
Kurz má svoji e-lerningovou stránku - tam je k dispozici podrobný učební text, který plně pokrývá přednášenou látku. Hradilek L., Stehlík E., 1990: Matematika pro geology I. SNTL, 426 str. |
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Last update: doc. RNDr. Jan Vilhelm, CSc. (31.03.2023)
Numerical Mathematics. Solution of systems of linear algebraic equations: Gaussian elimination and LU factorization, generalised matrix inversion, singular value decomposition, iterative methods. Problem solving exercises are based on MATLAB. |