Educational guide School of Engineering |
english |
Degree in Mathematical and Physical Engineering (2021) |
Subjects |
NUMERICAL METHODS |
Learning outcomes |
IDENTIFYING DATA | 2023_24 |
Subject | NUMERICAL METHODS | Code | 17274109 | |||||
Study programme |
|
Cycle | 1st | |||||
Descriptors | Credits | Type | Year | Period | ||||
6 | Compulsory | Second | 2Q |
Competences | Learning outcomes | Contents |
Planning | Methodologies | Personalized attention |
Assessment | Sources of information | Recommendations |
Type A | Code | Learning outcomes |
CE4 |
Know and implement basic algorithms for the numerical resolution of partial differential equations of the different types through finite differences Have a basic knowledge of the numerical technique of finite elements for the numerical resolution of partial differential equations and their applications in engineering | |
CE5 |
Develop from polynomial interpolation numerical derivation and integration techniques Implement algorithms for the numerical resolution of ordinary differential equations in initial value problems Apply algorithms for numerical resolution of one-dimensional contour problems Know and implement basic algorithms for the numerical resolution of different types partial differential equations through finite differences Have a basic knowledge of the numerical technique of finite elements for the numerical resolution of partial differential equations and their applications in engineering | |
CE9 |
Be able to distinguish the different classical examples of chaotic dynamical systems Know and implement iterative procedures for solving equation systems Know and implement classical polynomial interpolation techniques, as well as modern spline-based interpolations | |
CE12 |
Know and implement the direct basic algorithms for solving systems of equations Know and implement iterative procedures for solving systems of equations Develop the basic algorithms for nonlinear problems, as well as is aware of their limitations Know and implement classical polynomial interpolation techniques, as well as modern spline-based interpolations Develop from polynomial interpolation numerical techniques of derivation and integration Implement algorithms for the numerical resolution of ordinary differential equations in initial value problems Apply algorithms for numerical resolution of one-dimensional contour problems Know and implement basic algorithms for the numerical resolution of partial differential equations of the different types through finite differences Have a basic knowledge of the numerical technique of finite elements for the numerical resolution of partial differential equations and their applications in engineering | |
Type B | Code | Learning outcomes |
CT1 |
Manage and communicate information clearly and effectively. | |
CT2 |
Master the tools for managing their own identity and activities in a digital environment Search for and find information autonomously with criteria of reliability and relevance Organize information with appropriate tools (online and face-to-face) so that they can carry out their academic activities Produce information with tools and formats appropriate to the communicative situation and with complete honesty Use IT to share and exchange information | |
Type C | Code | Learning outcomes |