Computational astrophysics  

Specific Competition CE8 - Know how to program, at least, in a relevant language for scientific calculation in Astrophysics CE11 - Know how to use current astrophysical instrumentation (both in terrestrial and space observatories) especially that which uses the most innovative technology and know the fundamentals of the technology used General Competencies CG1 - Know the advanced mathematical and numerical techniques that allow the application of Physics and Astrophysics to the solution of complex problems using simple models Basic skills CB6 - Possess and understand knowledge that provides a basis or opportunity to be original in the development and/or application of ideas, often in a research context CB7 - That students know how to apply the knowledge acquired and their ability to solve problems in new or little-known environments within broader contexts CB8 - That students are able to integrate knowledge and face the complexity of formulating judgments based on information that, being incomplete or limited, includes reflections on the social and ethical responsibilities linked to the application of their knowledge and judgments CB10 - That students possess the learning skills that allow them to continue studying in a way that will be largely self-directed or autonomous Exclusive to the Theory and Computing Specialty CX2 - Apply knowledge of computer science, physics, astrophysics and computing to build numerical simulations of astrophysical phenomena or scenarios 6. Subject contents Theoretical and practical contents of the subject - Topics (headings): 1. COMPUTER SIMULATION AND "MACHINE LEARNING" METHODS AS TOOLS IN ASTROPHYSICS. 2. NUMERICAL PRACTICES IN (DEPENDING ON THE ENTITY OF THE PRACTICE, 1 OR MORE WILL BE CARRIED OUT): - STELLAR PHYSICS. - INTERSTELLAR MEDIUM AND PHYSICS OF GALAXIES - EXTRAGALACTIC PHYSICS AND COSMOLOGY - OTHER APPLICATIONS.
Presential
English
Computational astrophysics
English

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