Course competences
|
Code |
Description |
CB06 |
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. |
CB07 |
Apply the achieved knowledge and ability to solve problems in new or unfamiliar environments within broader (or multidisciplinary) contexts related to the area of study |
CB08 |
Be able to integrate knowledge and face the complexity of making judgments based on information that, being incomplete or limited, includes reflections on social and ethical responsibilities linked to the application of knowledge and judgments |
CB09 |
Know how to communicate the conclusions and their supported knowledge and ultimate reasons to specialized and non-specialized audiences in a clear and unambiguous way |
CB10 |
Have the learning skills which allow to continue studying in a self-directed or autonomous way |
CE01 |
Solve physical and mathematical problems, planning their solutions based on the available tools and time and resource constraints |
CE02 |
Develop the ability to decide the appropriate techniques to solve a specific problem with special emphasis on those problems associated with the Modeling in Science and Engineering, Astrophysics, Physics, and Mathematics |
CE03 |
Have the ability to build and develop advanced mathematical reasoning, and delve into the different fields of mathematics |
CE04 |
Have the ability to build and develop advanced physical reasoning, and delve into the various fields of physics and astrophysics |
CE05 |
Know how to obtain and interpret physical and/or mathematical data that can be applied in other branches of knowledge |
CE06 |
Prove the necessary capacity to perform a critical analysis, evaluation and synthesis of new and complex results and ideas in the field of astrophysics, physics, mathematics and biomathematics |
CE07 |
Ability to understand and apply advanced knowledge of mathematics and numerical or computational methods to problems of biology, physics and astrophysics, as well as to build and develop mathematical models in science, biology and engineering |
CE08 |
Ability to model, interpret and predict from experimental observations and numerical data |
CG01 |
Know how to work in a multidisciplinary team and manage work time |
CG02 |
Ability to generate and independently develop innovative and competitive proposals in research and professional activity in the scientific field of Physics and Mathematics |
CG03 |
Present publicly the research results or technical reports, to communicate the conclusions to a specialized court, interested persons or organizations, and discuss with their members any aspect related to them |
CG04 |
Know how to communicate with the academic and scientific community as a whole, with the company and with society in general about Physics and/or Mathematics and its academic, productive or social implications |
CG05 |
Gain the ability to develop a scientific research work independently and in its entirety. Be able to search and assimilate scientific literature, formulate hypotheses, raise and develop problems and draw conclusions from the obtained results |
CG06 |
Gain the capacity for dialogue and cooperation with scientific and business communities from other fields of research, including social and natural sciences |
CT01 |
Promote the innovative, creative and enterprising spirit |
CT03 |
Develop critical reasoning and the ability to criticize and self-criticize |
CT04 |
Understand and reinforce the ethical and deontological responsibility and commitment in the performance of the professional and research activity and as a citizen |
CT05 |
Autonomous learning and responsibility (analysis, synthesis, initiative and teamwork) |