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Last update: T_FUUK (14.05.2009)
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Last update: T_FUUK (14.05.2009)
Students will learn basic numerical algorithms (see annotation and syllabus). |
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Last update: RNDr. Ivan Barvík, Ph.D. (30.10.2019)
The credit is awarded on condition of at least 70% attendance. In case of non-fulfillment, it is necessary to elaborate and present tasks from topics where absences occurred. Another condition is the elaboration of assigned project. |
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Last update: T_FUUK (14.05.2009)
Lectures and practical exercises in computer lab |
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Last update: T_FUUK (14.05.2009)
Basics of computational physics Characterisation of computer technique computer and microcomputer architecture, programming languages, operating systems, structural programming. Main directions of computational physics Computer modelling Molecular dynamics method ? principle, difference equations, errors, implementation of many body algorithms. Introduction to the theory of probability Monte Carlo method ? principle, generation of random numbers, transformation of random numbers, application of Monte Carlo method in physics. Fluid modelling Hybrid modelling ? principle, application in physical electronics. Computer graphics and visualisation basic algorithms, applications. Image processing low-level image processing, image analysis. Integral transforms fast Fourier transform and its application in physics. |