Competencies and objectives

 

Course context for academic year 2024-25

The development of spatial vision and knowledge of graphic representation techniques and standards are basic skills for the development of Aerospace Engineering projects. They are fundamental in the phases of design and drawing up/interpretation of blueprints that will allow the construction of vehicles and aerospace propulsion systems and the development of airport and aeronautical infrastructures.
This course will prepare the student to achieve the aforementioned competences.

 

 

Course competencies (verified by ANECA in official undergraduate and Master’s degrees) for academic year 2024-25

Transversal Competences

  • CT02 : Utilizar de forma habitual las herramientas informáticas, así como las tecnologías de la información y las comunicaciones, en todo su desempeño profesional.
  • CT03 : Comunicar de forma oral y escrita transmitiendo información, ideas, problemas y soluciones a un público tanto especializado como no especializado.

 

General Competences

  • CG01 : Capacity for the design, development and management in the field of aeronautical engineering, in accordance with the knowledge acquired as established in section 5 of the order CIN/308/2009, of 9 February, aerospace vehicles, aerospace propulsion systems, aerospace materials, airport infrastructures, air navigation infrastructures and any space, traffic and air transport management system.
  • CG02 : Planning, drafting, direction and management of projects, calculations and manufacturing in the field of aeronautical engineering, in accordance with the knowledge acquired in accordance with section 5 of order CIN/308/2009, of 9 February, aerospace vehicles, aerospace propulsion systems, aerospace materials, airport infrastructures, air navigation infrastructures and any space, traffic and air transport management system.
  • CG03 : Installation, operation and maintenance in the field of aeronautical engineering, in accordance with the knowledge acquired as established in section 5 of the order CIN/308/2009, of 9 February, of aerospace vehicles, aerospace propulsion systems, aerospace materials, airport infrastructures, air navigation infrastructures and any space, traffic and air transport management system.
  • CG05 : Ability to carry out activities of design, technical management, expertise, drafting of reports, opinions, and technical advice in tasks related to Aeronautical Technical Engineering, exercise of genuinely aerospace technical functions and positions.
  • CG06 : Ability to participate in flight test programmes to collect data on take-off distances, climb rates, stall speeds, manoeuvrability and landing capabilities.

 

Specific Competences

  • CE05 : Capacity for spatial vision and knowledge of graphic representation techniques, both using traditional metric and descriptive geometry methods and by means of computer-aided design applications.

 

Basic Competences

  • CB1 : That students have demonstrated possession and understanding of knowledge in an area of study that builds on the foundation of general secondary education, and is usually at a level that, while relying on advanced textbooks, also includes some aspects that involve knowledge from the cutting edge of their field of study.

 

 

 

Learning outcomes (Training objectives)

  • Solve problems of analytical geometry and geometric places.
  • Apply representation systems based on orthogonal projections of three-dimensional objects.
  • Interpret two-dimensional representations of three-dimensional objects and solve third view problems of three-dimensional objects.
  • Use sketching techniques to represent three-dimensional objects and their orthogonal dimensioned views.
  • Apply the fundamentals of the Axonometric System for the representation of objects.
  • Apply the system of dimensioned plans to represent the terrain.
  • Apply the various technical standards of graphic representation.
  • Apply computer-aided design to generate plane geometry and generate complex three-dimensional objects by means of 3D modelling.
  • Generate plans from three-dimensional models by means of computer-aided design applications.

 

 

Specific objectives stated by the academic staff for academic year 2024-25

  • Solve problems of analytical geometry and locus.
  • Apply representation systems based on orthogonal projections of three-dimensional objects.
  • Interpret two-dimensional representations of three-dimensional objects and solve third view problems of three-dimensional objects.
  • Use sketching techniques to represent three-dimensional objects and their orthogonal dimensioned views.
  • Apply the fundamentals of the Axonometric System for the representation of objects.
  • Apply the system of dimensioned plans to represent the terrain.
  • Apply several technical standards of graphic representation.
  • Apply computer-aided design to generate plane geometry and generate complex three-dimensional objects by means of 3D modelling.
  • Generate blueprints from three-dimensional models by means of computer-aided design applications.

 

 

General

Code: 33805
Lecturer responsible:
Llorca Schenk, Juan Marcos
Credits ECTS: 6,00
Theoretical credits: 0,00
Practical credits: 2,40
Distance-base hours: 3,60

Departments involved

  • Dept: GRAPHIC EXPRESSION, COMPOSITION AND PROJECTS
    Area: EXPRESSIO GRAFICA EN L'ENGINYERIA
    Theoretical credits: 0
    Practical credits: 2,4
    This Dept. is responsible for the course.
    This Dept. is responsible for the final mark record.

Study programmes where this course is taught