Competencies and objectives
- Course context for academic year 2016-17
- Course content (verified by ANECA in official undergraduate and Master’s degrees)
- Learning outcomes (Training objectives)
- Specific objectives stated by the academic staff for academic year 2016-17
Course context for academic year 2016-17
Esta es una asignatura de introducción a las técnicas de aproximación en métodos numéricos y cálculo científico. Más detalladamente, el curso analiza los métodos numéricos para resolver ecuaciones no lineales, sistemas de ecuaciones lineales y no lineales, ecuadiones diferenciales ordinarias y problemas relacionados. Además, se estudian técnicas de Interpolación, Aproximación y Derivación e Integración Numérica. Cada uno de estos métodos se motivará de forma intuitiva, será descrito y analizado desde los puntos de vista teórico y práctico.
Course content (verified by ANECA in official undergraduate and Master’s degrees)
General Competences (CG)
- CG1 : Develop the capacity for analysis, synthesis and critical reasoning.
- CG3 : Solve problems effectively.
- CG7 : Show the capacity to adapt to new situations.
- CG9 : Show ability to communicate information, ideas, problems and solutions to both specialized and non-specialized public.
Specific Competences (CE)
- CE10 : Be able to use computing tools to model and solve physical problems.
- CE16 : Devise, analyze, validate and interpret models of real situations.
- CE8 : Understand and master mathematical and numerical methods commonly used in Physics.
UA Basic Transversal Competences
- CGUA3 : Possess computer skills relevant to the field of study.
Learning outcomes (Training objectives)
No data
Specific objectives stated by the academic staff for academic year 2016-17
No data
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