Analysis II 390-FS1-1AM2
This course has not yet been described...
|
Term 2024:
None |
Requirements
Prerequisites
Prerequisites (description)
Course coordinators
Type of course
Mode
Learning outcomes
Knowledge, the graduate knows and understands:
1. higher mathematics techniques to the extent necessary for the quantitative description, understanding and modeling of physical problems of medium complexity (KP6_WG2)
2. and is able to explain descriptions of regularities, phenomena and physical processes using the languages of mathematics, in particular is able to independently recreate basic theorems and laws (KP6_WG3);
3. advanced computational methods used to solve typical physical problems and examples of practical implementation of such methods using appropriate IT tools; knows the elements of programming and software engineering within the scope of the education program (KP6_WG4).
Skills, the graduate is able to:
4. analyze problems in the field of physical sciences and astronomy and find their solutions based on the known theorems and methods (KP6_UW1);
5. perform quantitative analyzes and formulate qualitative conclusions on this basis (KP6_UW2);
6. use the apparatus of higher mathematics and mathematical methods of physics when describing and modeling basic physical phenomena and processes, is able to independently recreate theorems and equations describing basic phenomena and laws of nature, is able to prove these theorems and laws (KP6_UK2).
Social competences, the graduate is ready to:
7. critical assessment of knowledge and received content (KP6_KK1).
Bibliography
|
Term 2024:
None |
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: