Master's in Geographic Sciences in Belgium

Find Master Degrees in Geographic Sciences in Belgium

Geographic Sciences

A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.

Geographic sciences is a discipline that deals with the study of planet Earth and its many features. Students who study this field can learn about the planet and how humans live on it, in addition to the technology used for analyzing data.

Belgium offers a market oriented higher-level education that is based on skills and innovation. The country's higher education institutions offer an interactive at the same time research oriented university education before joining the job market.

Masters Program in Geographic Sciences in Belgium

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Master of Space Studies (Leuven et al)

KU Leuven - University of Leuven
Campus Full time Part time September 2017 Belgium Brussels

The Master of Space Studies programme is designed to prepare scientists to respond to a myriad of challenges and opportunities. In addition to coursework in space sciences, the curriculum is enriched by a Master's thesis and a series of guest lecturers from international, national and regional institutions. [+]

Top Master Programs in Geographic Sciences in Belgium. The space sector plays an important role in economic, social, technological and scientific developments. The future of the sector and its manifold applications require highly skilled experts with a broad interdisciplinary perspective. The development of innovative space technologies is fostered by an intense symbiosis between technological sectors and the challenges set by fundamental research in exact and biomedical sciences. Additionally, the economic and social valorisation of space technologies requires an efficient relationship between project developers and the economic sector. The large scale of space projects imposes important constraints on management. The international character of the space sector and of its broad applications, including the relevance of space for security and defence, implies a need for European and international legal and political measures. What is the Master of Space Studies all about? The Master of Space Studies programme is designed to prepare scientists to respond to a myriad of challenges and opportunities. In addition to coursework in space sciences, the curriculum is enriched by a Master's thesis and a series of guest lecturers from international, national and regional institutions. This is an advanced Master's programme and can be followed on a full-time or part-time basis. Structure The programme is conceived as an advanced master’s programme and as such it requires applicants to have successfully completed an initial master’s programme in either the humanities and social sciences, exact sciences and technology or biomedical sciences. The interdisciplinary nature of the programme is expressed by the common core of 25 ECTS in introductory coursework. These courses are mandatory for every student. They acquaint the student with the different aspects that together form the foundation of space-related activities. The backgrounds of the students in programme are diverse, but all students have the ability to transfer knowledge across disciplines. Depending on their background and interests, students have the opportunity to deepen their knowledge through more domain-specific optional courses, for a total of 20 ECTS, covering the domains of (A) Space Law, Policy, Business and Management, (B) Space Sciences and (C) Space Technology and Applications, with the possibility to combine the latter two. For the master’s thesis (15 ECTS), students are embedded in a research team of one of the organising universities, or in an external institute, organisation or industrial company, in which case an academic supervisor is assigned as the coordinator of the project. The master’s thesis is the final section of the interdisciplinary programme, in which the acquired knowledge and abilities are applied to a complex and concrete project. Department The mission of the Department of Physics and Astronomy is exploring, understanding and modelling physical realities using mathematical, computational, experimental and observational techniques. Fifteen teams perform research at an international level. Publication of research results in leading journals and attracting top-level scientists are priorities for the department. New physics and innovation in the development of new techniques are important aspects of our mission. The interaction with industry (consulting, patents...) and society (science popularisation) are additional points of interest. Furthermore, the department is responsible for teaching basic physics courses in several study programmes. Is this the right programme for me? The interdisciplinary Master of Space Studies programme is open to students who have already obtained a master’s degree. The criteria for admission to the programme include the following: the candidate has obtained an initial master’s degree for which he/she can motivate the relevance for space studies. the candidate presents a 2-page essay with a consistent view of the importance of the programme for his/her professional expectations, in view of the candidate’s previous education. The candidate may be invited to an intake interview. The objective of the selection procedure with respect to the initial master’s degree is to verify the student’s chances of success. However, students with an initial master’s degree that does not have a direct apparent connection with space studies can still apply, and may be accepted depending on the power of conviction of their background and argumentation. Non-native English speaking students are required to submit a TOEFL or IELTS certificate. Objectives The objectives of the programme are to develop students' knowledge of all aspects of space studies generally and, specifically, to impart: the ability to situate the relevance of students' own curriculum in the broad field of space studies; specialised knowledge and attitudes in specific fields relevant to space studies; insight in the development and realisation of large international projects; abilities necessary for the guiding of complex projects. After the completion of the programme, students will have attained the following learning outcomes: Knowledge and understanding LO1: Are capable of analysing and understanding the main scientific, technological, political, legal and economical aspects of space activities. LO2: Demonstrate an advanced knowledge in one of the following fields: A. Space Law, Policy, Business and Management; B. Space Sciences; C. Space Technology. Skills LO3: Are capable of discussing and reporting on the main scientific, technological, political, legal and economical aspects of space activities. LO4: Can apply, in the field of space studies, the knowledge, skills and approaches they obtained during their previous academic master. LO5: Are able to integrate their own disciplinary expertise applied to space related activities within their broad and complex multi-disciplinary environment, taking into account their societal, technological and scientific context. LO6: Can communicate clearly and unambiguously to specialist and non-specialist audiences about space projects in general and their specific area of expertise. LO7: Have the skills to commence participation in complex space projects in multi-disciplinary and/or multinational settings in the framework of institutions, agencies or industry. This includes information collection, analysis and drawing conclusions, individually and/or as part of a team. LO8: Can undertake research in the space field individually, translate the findings in a structured fashion, and communicate and discuss the results in a clear manner (oral and written). Approaches LO9: Have a multi-disciplinary approach to complex projects, with special attention to the integration of the different and complementary aspects of such projects. LO10: Understand and are able to contribute to exploiting the benefits of space for humanity and its environment and are familiarised with the broad spectrum of aspects of peaceful space activities, including the societal ones. LO11: Have a critical approach towards the place of space activities in their societal framework, including ethical questions arising from space activities. Career perspectives Graduates will be in a position to develop a career in the space sector or in space research. Depending on his/her previous degree, the student will find opportunities in the space industry (engineers, product developers and technical-commercial functions with a high degree of technical and financial responsibilities), research institutions with activities in space (researchers and project developers), (inter)governmental bodies with responsibilities in research and development programmes related to space (project managers and directors, policy makers on national, European and international levels). The spectrum of employment possibilities encompasses not only the space sector as such, but also the broader context of companies and organisations which use or are facilitated by space missions. [-]

Master in Geology and Mining Engineering - taught in FRENCH

University of Mons
Campus Full time September 2017 Belgium Mons

Most of the mineral and energy resources are buried into the ground. Therefore, the Master of Science in Geology and Mining Engineering is a major actor in prospection and evaluation of deposits, extraction of ores and hydrocarbons, and in the processing of ores and minerals. [+]

This program is taught in FRENCH. Most of the mineral and energy resources are buried into the ground. Therefore, the Master of Science in Geology and Mining Engineering is a major actor in prospection and evaluation of deposits, extraction of ores and hydrocarbons, and in the processing of ores and minerals. In addition, these processes will be dealt by the Master of Science in Geology and Mining Engineering with the most adequate technical and economic means together with the lowest environmental impact. Human infrastructures, set up at the surface and into the subsurface of the earth, strongly rely on the characteristics of the soils and rocks. The expertise of the Master of Science in Geology and Mining Engineering is therefore of prime importance to the design and the achievement of civil engineering projects such as tunnels, dams, bridges, buildings, underground storage, etc. Masters of Science in Geology and Mining Engineering prevent effects on human infrastructures of natural events such as earthquakes, landslides, etc. He or she will also prevent the impacts of human activities on the environment and on natural resources. In other words, the engineer is involved in problems such as groundwater protection area, rehabilitation of polluted sites, geological storage of CO2 and radioactive waste. Profile of the programme During the course of their studies, students in geology and mining engineering acquire a good knowledge both in Earth sciences and in engineering sciences. A basic training in Earth sciences - geology, mineralogy, petrography, stratigraphy, palaeontology and tectonics - is completed by training in hydrogeology, in applied geophysics, in geostatistics and modelling in geology. The training in mining engineering concerns rock mechanics, modelling in rock mechanics, extraction of mineral resources, mineral and waste processing, drilling technologies and reservoir engineering. The training in mining and geology offers two options: Resources and Infrastructures focused on ore-forming processes, design and construction of mining-like structures and, planning and optimisation of mining operations (Project) Environment and Natural Risks focused on management of geological risks, characterisation of brownfields subsurface and remediation of polluted soils. It also contains a specific project. Practice both in laboratory and on the field is specific to geology and mining engineering studies. Corporate visits, field excursions, field camps and a study tour are organised during the course of the studies. Learning is strongly connected with research (The Mining and Geology Division participates to 3 of the 5 research clusters of the Faculty of Engineering – Materials, Energy and Risks). Erasmus conventions were signed with several Institutions, especially in Spain. Key learning outcomes By the end of their programme in Engineering Sciences, the master graduates will be able to: Demonstrate expertise and versatility in the sciences and technology Formulate and analyse complex problems Adopt an applied scientific approach Innovate Implement solutions Plan and carry out projects in engineering Work in and lead a team Master scientific and technical communication Practice interpersonal communication appropriate to each context Be a critical, reflexive and independent professional Be a responsible person, in step with the stakes of society By the end of this specific course programme, the students will be able to: Solve problems in applied geology: identifying and understanding geological and underground structures, characterisation and evaluation of mineral and energy resources deposits, production of water. Solve problems in mining engineering: planning and optimisation of extraction of mineral and energy resources, design and construction of mining-like structures (tunnels, dams), deep drilling and mineral processing. Manage problems of environment and sustainable development in connection with mineral and energy resources, water resources, waste, polluted sites, geological hazards. Apply adequate methodologies, techniques and tools to efficiently solve technical, economic and environmental issues as mentioned above. Show initiative, autonomy and ability of observation and analysis. Occupational profiles Graduating in geology and mining engineering offers a wide range of job opportunities worldwide as well as in Belgium. Extractive industries and, more generally speaking, heavy industries are the traditional sectors of employment. Masters of Science in Geology and Mining Engineering find jobs in mines and quarries, oil and gas production companies, groundwater production companies, cement works, mineral processing plants, steelmaking plants, etc. They occupy positions both in production departments as well as in R&D departments. There are also job opportunities in fields such as engineering geology and geotechnics for activities like: designing and construction of tunnels, dams and bridges or the management of geological risks (earthquakes, landslides, etc.), both in construction companies and in consultancies. Their training, both in Earth sciences and in engineering sciences, gives Masters of Science in Geology and Mining Engineering opportunities of employment in the field of the environmental engineering, with activities as diverse as the rehabilitation of mine and quarry sites, the management of waste, the study and prevention of environmental impact of industrial activities, the remediation of polluted sites. Research offers also careers both in R&D Centres and in Universities. The University provides numerous opportunities of appointment through contracts with private companies and public services and awards PhD degree. (See also topic “Assess to further studies”) Access to further studies The Master of Science in Geology and Mining Engineering can lead to postgraduate studies in order to specialize, do further training or research: either by completing another Engineering Master’s degree, at the University of Mons or any other European university, e.g. in Quality Control and Management, Industrial Risks and Operational Safety, Transportation Management, Master in Business Administration, etc. or by conducting a PhD thesis in engineering sciences possibly with the support of research clusters of the Faculty and the University of Mons. Mode of study: Full time [-]