- BSc Aerospace Engineering courses related to: Classical mechanics, electromagnetism, thermodynamics, heat transfer, electric power, structural calculus, rocket motors, control theory, computer programming - Astrodynamics and Atmospheric Flight Dynamics

At the end of the course, the student shall be capable of understanding and mastering: - The design and analysis of space systems and space missions - The unique aspects of the space environment and the requeriments it imposes on a Space System / Space Mission - The types of Space system, Space Mission phases and procedures, and the design drivers behind each of them - The different segments that compose a space system - The different subsystems of the space segment in a space mission, their operation and sizing - The space propulsion systems, launchers, and their operation - Ground segment requirements and operation - The certification requirements for space vehicles, and judge their acceptance levels

- Introduction to Space Systems, Space Missions - Space Systems Engineering - LEO and GEO Missions. Mission geometry - GNSS, Science and Interplanetary missions - The space environment - Space segment: overview - Spacecraft subsystems o Space propulsion o Communications o Electric power o On board computer o Telemetry, tracking and telecommand o Structure and mechanisms. S/C configuration o ADCS o Thermal control - Launchers and access to space and Reentry - Guidance, Navigation and Control - Manufacturing, assembly; certification, testing and QA - Ground segment and operations - End of life considerations; space debris, space law

The course has 29 classroom sessions (100 minutes) will be divided as follows: - theory and design example sessions / problem solving sessions (24 sessions) - Lab and computer sessions (4 sessions) - Student project final presentation session (1 session) An important part of the continuous evaluation is a space mission design project to be carried out in groups. Several collective tutorial sessions will be planned along the course to guide the design project. A visit to ESA ESAC facilities in Villanueva de la Cañada will take place during the course (to be confirmed each year). Invited talks by ESA experts and others will be organized (to be confirmed each year). An important part of the course is the individual and team student work outside of classroom hours. Along the course, several voluntary homeworks will be handed out for student practice. The course has an estimated student workload of 150 h (6 ECTS), including personal work. Communication with the students will be done through aulaglobal: aulaglobal.uc3m.es. Students can ask for tutorial sessions with the faculty on the hours advertised there.