Duration
30h Th, 10h Pr
Number of credits
| Master in space sciences (120 ECTS) | 4 crédits | |||
| Specialised master in cosmos exploration | 4 crédits |
Lecturer
Language(s) of instruction
English language
Organisation and examination
Teaching in the first semester, review in January
Schedule
Units courses prerequisite and corequisite
Prerequisite or corequisite units are presented within each program
Learning unit contents
Spacecraft (satellites or probes) have allowed to achieve considerable progress in many fields of space science including the exploration of the Solar System, geophysics as well as phenomena that occur far away in the distant Universe. This course provides an introduction to various concepts that play a role in modern space missions from the very early stage of the spacecraft design up to the exploitation of the scientific results.
We start with a short overview of the history of space exploration from the Spoutnik satellite to modern spacecraft. We then review some fundamental concepts of celestial mechanics necessary to understand the differents types of orbits used for different missions. The design of a space mission and the scientific exploitation of its results require a deep knowledge of the spacecraft environment and an accurate calibration of the instruments onboard. A major part of this course is therefore devoted to the study of the various external parameters that impact on the design of the mission as well as to the calibration methods (both on-ground and in-orbit). Several examples of past, current and future space missions are presented to illustrate the different steps from their initial conception to the exploitation (and interpretation) of the data collected. The course ends with some discussion about the prospectives of space exploitation.
Learning outcomes of the learning unit
At the end of this course, the students will be familiar with the specific concepts of scientific space missions. They will be able
- to understand the design of the spacecraft and the choice of the best instrumentation depending on the mission's objectives and constraints,
- to analyse the various steps in a space mission, and
- to evaluate its scientific return.
Prerequisite knowledge and skills
Good knowledge of mathematics, physics, and classical mechanics.
Planned learning activities and teaching methods
Several tutorial classes are organised including one where the students simulate the conception of a space mission with a specific scientific objective. The reports of the students during this session constitute 10% of their final mark.
Mode of delivery (face-to-face ; distance-learning)
About 30 hours of lectures followed by several tutorial sessions (10h). The course takes place during the first semester.
Recommended or required readings
The lecture notes are provided as a pdf file in English. The students are invited to make extensive use of the on-line version of this course. This online course contains the lecture notes, copies of the slide show used during the lectures, links to videos that illustrate some aspects developed in the course, as well as a test (not part of the assessment) that helps the students prepare their exam.
Assessment methods and criteria
The assessment is composed for 90% of the evaluation of a written exam, as well as for 10% of the assessment of a tutorial session where the students simulate the design of a space mission. The evaluation emphasizes the understanding of the course and the ability to use the techniques that have been taught. To successfully pass the exam students have to learn and understand the course.
Work placement(s)
Organizational remarks
N/A
Contacts
Prof. Gregor Rauw
Institut d'Astrophysique et Géophysique, Bât. B5c
Allée du 6 Août, 19c
4000 Liège
Tel. +32-(0)4 366 9740
e-mail: g.rauw@uliege.be
Adaptation of teaching commitments following the COVID-19 pandemic for the May-June 2020 session
Teaching methods implemented : distance-learning
Assessment subjects
Assessment methods
Contacts
Adaptation of teaching commitments following the COVID-19 pandemic for the Aug-Sept 2020 session
Assessment subjects
The assessment concerns the same topics as for the January exam session.
Assessment methods
The assessment consists of two parts:
- an MCQ on the eCampus plateform consisting of 10 questions that must be answered within 15 minutes (1/4 of the final mark).
- four open questions (3/4 of the final mark). The students have two hours to respond to these questions. They can either send their responses directly by e-mail or copy them onto a sheet of paper and scan their answer (or take a picture of it) and send it by e-mail.
The only e-mail address to which the answers should be sent is
g.rauw@uliege.be
During the exam, the teacher is available on Lifesize and by phone at 04/366 9740
Contacts
E-mail: g.rauw@uliege.be
Items online
On-line course
This link brings you to the on-line version of the course.