Competencies and objectives

 

Course context for academic year 2025-26

La asignatura de Fundamentos Físicos de la Ingeniería Aeroespacial 1 es una asignatura de carácter básico del 1er cuatrimestre del primer curso del grado en Ingeniería Aeroespacial. Consta de 9 ECTS, repartidos en 4.5 ECTS de teoría, 3 ECTS de prácticas de problemas y 1.5 ECTS de prácticas de laboratorio. Conforma, junto con la asignatura de Fundamentos Físicos de la Ingeniería Aeroespacial 2, básica de 2º cuatrimestre del primer curso, una introducción a los principios fundamentales de la Física y a sus aplicaciones en el campo de la Ingeniería Aeroespacial. La asignatura representa la base conceptual e instrumental sobre la que se apoyan muchas asignaturas de la carrera (por ejemplo, Ingeniería Térmica, Ingenierái Electrónica, Transporte Aéreo y Navegación Aérea, Mecánica de Fluidos y Propulsión Aeroespacial, Aerodinámica v Mecánica del Vuelo).

 

 

Learning outcomes / Course competencies (verified by ANECA in official undergraduate and Master’s degrees) for academic year 2025-26

Transversal Competences

  • 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.
  • CG04 : Verification and Certification in the field of aeronautical engineering, in accordance with the knowledge acquired as established in section 5 of order CIN/308/2009, of 9 February, on aerospace vehicles, aerospace propulsion systems, aerospace materials, airport infrastructures, aeronautical 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.
  • CG07 : Capacity to analyse and assess the social and environmental impact of technical solutions.

 

Specific Competences

  • CE02 : Understanding and mastery of the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application to the resolution of engineering problems.

 

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)

  • Know and understand the principles of kinematics and dynamics of particles and particle systems and the application of physical laws to problem solving in the field of Aerospace Engineering.
  • Know and apply the principles and laws of mechanics and thermodynamics.
  • Know and apply the fundamental principles of electromagnetism and their application to the analysis and resolution of problems in Aerospace Engineering.
  • Acquire the ability to solve thermodynamic problems in the field of aerospace engineering.
  • Acquire the ability to solve problems involving mechanical issues in the field of aerospace engineering.
  • Apply the scientific method to experimental measurements and develop a laboratory report.
  • Identify the electromagnetic properties of matter in nature, understand the laws governing electromagnetic interaction and apply them to the resolution of aerospace engineering problems.

 

 

Specific objectives stated by the academic staff for academic year 2025-26

No data

 

 

General

Code: 33802
Lecturer responsible:
Campo Bagatin, Adriano
Credits ECTS: 9,00
Theoretical credits: 0,00
Practical credits: 3,60
Distance-base hours: 5,40

Departments involved

  • Dept: Physics, Systems Engineering and Sign Theory
    Area: Applied Physics
    Theoretical credits: 0
    Practical credits: 3,6
    This Dept. is responsible for the course.
    This Dept. is responsible for the final mark record.
  • Dept: Physics
    Area: Applied Physics
    Theoretical credits: 0
    Practical credits: 0

Study programmes where this course is taught