Knowledge of the main techniques of integration of functions of several variables. |
|
B3 B4
|
C1
|
D1 D2 D9
|
Understand the importance of integral calculus, vector calculus and differential equations for the study of the physical world. |
|
|
C1
|
D9 D16
|
Acquisition of the ability to use this knowledge to solve questions, exercises and problems manually and by computer. |
|
|
C1
|
D1 D2 D3 D6 D9 D15 D16
|
ENAEE LEARNING OUTCOME: KNOWLEDGE AND UNDERSTANDING: LO1.1 - Knowledge and understanding of mathematics and other basic sciences inherent to his/her engineering specialisation, at a level that allows the acquisition of the rest of the competences of the degree [development level (basic (1), adequate (2) and advanced (3)) of this sub-outcome: Adequate (2)]. |
|
B3
|
C1
|
|
ENAEE LEARNING OUTCOME: ENGINEERING ANALYSIS: LO2.2 - The ability to identify, formulate and solve engineering problems in their speciality; to choose and apply established analytical, computational and experimental methods appropriately; to recognise the importance of social, health and safety, environmental, economic and industrial constraints [Adequate (2)]. |
|
B4
|
C1
|
D1 D2 D9 D16
|
ENAEE LEARNING OUTCOME: RESEARCH AND INNOVATION: LO4.3 - Ability and skill to design and carry out experimental investigations, interpret results and draw conclusions in their field of study [Adequate (2)]. |
|
|
|
D9
|