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Masters Degrees (Brussel)

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Are you interested in theoretical and/or experimental research of elementary particles, stars and the universe? Do you want to attend lectures by Nobel… Read more

Something for you?

Are you interested in theoretical and/or experimental research of elementary particles, stars and the universe? Do you want to attend lectures by Nobel Prize laureates and other internationally renowned researchers during your education? Do you want to participate actively in the latest, innovative experiments at CERN or on Antarctica? Or do you aspire to have a career in academia, industry, banking, in the medical sector or education? In that case this Master programme is what you are looking for!

About the programme

This MSc programme combines the expertise in research of both the Vrije Universiteit Brussel (VUB) and Ghent University (UGent). This allows you to tailor your study programme according to your interests. The programme consists of several components: basic competences, electives, Master’s thesis and, specifically for the minor Research, mobility / internship. Mobility means taking courses at another university, usually in Belgium, while the internship can be either in Belgium or abroad.

Content

Elementary particles
The structure of this Master’s programme ensures a broad formation as a physicist and offers you the opportunity to partake in top-level research in our very own research groups. This programme focuses on the physics of elementary particles, where both experimental and theoretical research topics are discussed, as well as astro-particle physics.

Experimental physicist
As an aspiring experimental physicist you can focus on the experimental study of high-energy interactions and cosmic radiation, and you can work with the most innovative detectors in the biggest particle accelerators.

Theoretical physicist
As a future theorist you will be confronted with gauge theories, strings and branes, gravitation and cosmology. This theoretical part has links with theoretical research in astrophysics, since that discipline studies the evolution of massive double stars, the evolution of star birth galaxies and the chemical evolution of galaxies.

Astronomer
As an aspiring astronomer you can choose to do observational research on topics such as astroseismology and the development of photometric techniques.

Quantum physics
Finally, you can also decide to specialise in the most fundamental aspects of quantum physics and its recent applications in the field of quantum information.

Curriculum

The curriculum consists of four components:

1. Mandatory courses
2. Electives
3. Internship
4. Master thesis
This structure ensures that you will have a solid formation as a physicist, while offering you the possibility to participate in high-level research in our research groups.

Room for interaction and discussion

Physics students at the Vrije Universiteit Brussel attend lectures, exercises, lab sessions and excursions in small groups. There is room for interaction and discussion, and a low threshold for students to actively participate. This programme pays special attention to critical analysis.

The different research groups at the Vrije Universiteit Brussel are in close contact with leading universities and research institutes around the world, which allows you to do part of your studies and/or the research for your Master’s thesis abroad. Our research groups work for example at the particle accelerator at CERN.

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The Erasmus Mundus Master of Science in Photonics is an international English-taught course programme with a duration of 2 years set up in the context of the Erasmus Mundus programme of the European Union since 2006. Read more

About the programme

The Erasmus Mundus Master of Science in Photonics is an international English-taught course programme with a duration of 2 years set up in the context of the Erasmus Mundus programme of the European Union since 2006. This master programme is offered by three leading European universities in the field of photonics: Ghent University (acting as coordinator), Vrije Universiteit Brussel (Belgium) and St-Andrews University (UK). Furthermore the consortium has added Associated Academic Partners (NTU - National Taiwan University, Taiwan, EPFL - Ecole Polytechnique Fédérale de Lausanne, Switzerland, DTU - Technical University of Denmark, Denmark - Royal Institute of Technology - KTH, Stockholm (Sweden) and UPV - Universidad Politécnica de Valencia, Spain) to the programme to offer all students a thesis in their field of specialization.

Core and advanced photonics courses

Two universities in Belgium (Vrije Universiteit Brussel and Universiteit Gent, programme coordinator), two in Scotland (St.-Andrews University and Heriot-Watt University) and one in Sweden (Kungliga Tekniska Högskolan, Stockholm) have jointly organised the Erasmus Mundus Master of Science in Photonics since September 2006.

This Master offers:

- A specialization in photonic materials, components and systems. Lasers and LED's, optical fibres and liquid crystals, optical sensors and detectors will reveal all their secrets to you.
- A wide variety of elective courses in ICT, electronics, business aspects of photonics, multimedia etc.
- An industrial internship which will give you the opportunity to get in touch with the Photonics Industry
- A multi-disciplinary training in Photonics and Photonics-related subjects, organized
by four European universities that are all at the top of the innovative world of Photonics
- The opportunity to broaden your knowledge and skills in other domains, such as ICT, biosciences, physics and chemistry of materials, industrial management etc.

The graduates of this programme receive a joint UGent-VUB Master of Science degree in Photonics

Approach

Core and advanced photonics courses:
The first year will be devoted mainly to a programme of core photonics courses with essentially the same content at all institutes, complemented by a number of advanced photonics courses as well as several courses in related disciplines and transferable skill courses.

Move to another location:
In the second year you will move to another location where you will continue to take advanced photonics, multidisciplinary and transferable skill courses and where you will carry out your master thesis (30 ECTS) in a photonics sub-field of their choice. In addition to the regular courses, all students will attend a two-week summer school at the end of the first and second year of the programme.

International opportunities

This Master's programme offers both EU and non-EU students the opportunity to enroll in an international programme and to spend a year in two of the three countries mentioned above. It’s a multi- disciplinary programme covering electrical engineering, basic physics, material technologies, electronics and applications in different fields.

Contact with different European cultures and languages:
In addition, they will be brought into contact with several European cultures and languages and will get the chance to live in different European capitals (Brussels and Stockholm) and/or European cities (Gent, Edinburgh and Saint Andrews), cities with a rich cultural heritage.

For your master thesis you can travel to the following EMMP partner institutions who excel in photonics research:
- Overseas partnership: National Taiwan University (R.O.C. Taiwan)
- Associated European partners: Danmarks Tekniske Universitet (Denmark), École Polytechnique Fédérale de Lausanne (Switzerland), Universitat Politècnica de València (Spain)

Curriculum

Available on http://studiegids.ugent.be/2013/EN/FACULTY/E/MABA/EMEMMP/EMEMMP.html

Admission requirements



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The Master of Physical Land Resources has two specializations. Soil Science (organized by the Universiteit Gent) and Land Resources Engineering (organized by the Vrije Universiteit Brussel). Read more
The Master of Physical Land Resources has two specializations: Soil Science (organized by the Universiteit Gent) and Land Resources Engineering (organized by the Vrije Universiteit Brussel). During your training you acquire a profound knowledge of pedology, soil physics and chemistry, soil mineralogy, soil prospection and classification, statistics and computer science, climatology and meteorology. Depending on the chosen modules you can specialize in the fields of: land evaluation, soil fertility, soil-water management, etc.

This master offers

 Knowledge and skills which enable you to start and build a successfull career as scientist specialised in either Soil Science or Land Resources Engineering in a professional way.
 The ability to formulate hypotheses and design experiments to test them, report results and findings to both your peers and to a general public.
 You to learn to think analytically, synthetically, creatively and in a problem solving way
 The ability to work both autonomously and in a team.
 The ability to apply knowledge as required for the overall development policy of your country
 The skills to function in fundamental as well as in applied research at universities, research institutions and (other) government or private institutions and companies.

International Course Programme

This programme is one of the International Course Programmes supported by the Flemish Interuniversity Council - University Development Cooperation (VLIR-UOS). A limited number of scholarships is available for students coming from specific developing countries.

Structure

The Master of Science degree programme in Physical Land Resources is a two year, full time course.

The first year provides a fundamental basis in physical land resources, with a main subject in either Soil Science or Land Resources Engineering. The second year offers specialised courses in one of the two main subjects. The students have to prepare a dissertation. Successful completion of the programme leads to the award of an Master of Science degree in Physical Land Resources.
The course curriculum of the first year, and of the main subject in soil science of the second year is organised at the Ghent University, whereas all courses of the main subject in Land Resources Engineering of the second year are organised at the "Vrije Universiteit Brussel". Students in Land Resources Engineering have to reside in Brussels during the second year.

The academic year starts the last week of September. Students are expected to arrive in Gent ten days before the start of the programme. There are two examination periods, in January and in June respectively. For students who fail, there is a re-examination session in August-September.

Curriculum

For the specialization Land Resources Engineering the curriculum is available on http://www.vub.ac.be/en/study/physical-land-resources/programme

For the specialization Soil Science the curriculum is available on http://www.plr.ugent.be/main.htm#course

Student profile

You want to know what (a) soil is?
You want to know which factors and properties determine the soil suitability to be used for both agricultural and non-agricultural purposes and how this is established?
You want to know how the soil can be improved to suit specific applications?
You want to know how to address problems of degradation and desertification?
You want to know how to manage the land and how to protect it?
You want to know what the impact of the soil factor is in the dynamics of natural ecosystems and how this knowledge can be applied in the area of nature conservation?
You want to know what the soil teaches us about current environmental issues?
You want to know how soil and water management can be improved in the frame of sustainable agriculture?
You want to know how we can manage our scarce water supplies?

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Cardiac Arrhythmias management is rapidly developing as a subspecialty within cardiology that is devoted to the diagnosis and the treatment of cardiac rhythm disorders, including invasive evaluation of their mechanisms, controlled destruction of arrhythmogenic myocardium by percutaneous catheters, and implantation of cardiac rhythm management devices. Read more

Cardiac Arrhythmias management is rapidly developing as a subspecialty within cardiology that is devoted to the diagnosis and the treatment of cardiac rhythm disorders, including invasive evaluation of their mechanisms, controlled destruction of arrhythmogenic myocardium by percutaneous catheters, and implantation of cardiac rhythm management devices.

Catheter ablation is the therapy of choice for most supraventricular tachycardias (over 100 000 interventions performed every year in Europe). Device implantation for arrhythmia treatment, sudden death prevention, and cardiac resynchronization are practiced regularly nowadays (performed in more than 200 000 patients in Europe per year). The increase in the indications and the number of all of these procedures depicts the present scenario by emerging indications, an increasing number of invasive procedures, and the establishment of new practicing units and professionals. Nevertheless, these procedures require cardiologists with comprehensive knowledge of cardiac arrhythmias disorders and who are trained in cardiovascular catheter manipulation, heart electrical signal recording and interpretation, and device implantation and follow-up to ensure both patient's safety and quality.

Thus, it appears to be imperative to promote and ensure sufficient and homogeneous training and qualification in cardiac arrhythmias management amongst these professionals.

During the clinical training year, time is available to complete research projects and undertake smaller projects including case reports. Our fellows typically publish two to three peer reviewed publications during their clinical year and complete prior research projects. We encourage individuals without significant electrophysiology experience in their fellowship to participate in a comprehensive program that involves research and extended clinical training for two to three years (PhD program).

Course content

- Hands-on Training and Clinical Practice (20 ECTS credits)

- Research (20 ECTS)

- Self-study (10 ECTS)

- Congress Participation and Publications (4 ECTS)

- Interdisciplinary Seminars Physiology and Electrophysiology (3 ECTS)

- Weekly Seminars Hearth Rhythm Management Centre (3 ECTS)

Certificate

At the end of the postgraduate course a certificate for a ‘Postgraduate in Cardiac Electrophysiology and Pacing’, signed by the rector of the Vrije universiteit brussel, will be handed out by the institute for Postgraduate Training of the Vrije universiteit brussel (iPAVub).



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The Master in Chemistry is a two-year (120 ECTS) advanced study in chemistry organised by the Vrije Universiteit Brussel, a Flemish university located in Brussels, Belgium. Read more
The Master in Chemistry is a two-year (120 ECTS) advanced study in chemistry organised by the Vrije Universiteit Brussel, a Flemish university located in Brussels, Belgium. This MSc programme combines the expertise in the different research domains of both the Vrije Universiteit Brussel (VUB) and Ghent University (UGent).

About the programme

Apart from a mandatory set of core competences, the programme offers a wide variety of classes within four current trends in Chemistry (clusters composed of a course package of 30 ECTS credits):

• Molecular and Macromolecular Design offers a thorough education in the design and synthesis of organic molecules and polymers, in which medicinal chemistry, computational chemistry and structural analysis feature prominently.
• Materials Chemistry focuses on the properties of materials, such as polymers, for example surface analysis, X-rays and laser spectroscopy and computational chemistry.
• Analysis and Characterisation covers a whole range of analytical techniques, including new electrochemical methods, advanced chromatography and elemental and isotope analyses.
• Environmental Chemistry studies natural and disturbed processes in water, soil and atmosphere. A variety of analytical techniques are used here, and new sampling and measuring techniques are designed, refined and optimised.

Additionally three main orientations exist, allowing you to select a profile composed of an additional course package of 30 ECTS in Research, Industry or Education (the profile ‘Education’ is taught in Dutch).

Approach

Practicals in small groups:
Chemistry is a real experimental science. Consequently, a lot of attention is given to practical experience and laboratory training. Practical sessions are designed to precisely perform experiments in small groups, and to handle chemicals in a safe and environmentally friendly manner. Writing lab reports and oral presentation skills are emphasised, as they constitute an integral part of the preparation for your future career. During these practical sessions, you are exposed to the different research areas and you become familiar with both theoretical and practical aspects of the different branches of chemistry. You will be introduced to the world of nucleic acids, proteins, biochemical processes and their applications, the design and synthesis of new molecules, molecular properties and reactivity studies, as well as the detection of organic pollutants, or the precise measurements of very low metal concentrations in the environment (water, soil, air).

Everyday applications:
Chemistry gives insight into a broad range of phenomena with everyday applications, and teaches you the theoretical basis of molecular properties. You also learn how you can elucidate the structure of complex organic molecules, and how you can build these molecules in the lab. The air you breathe or the water you drink must comply with international quality standards. You will be taught how to monitor that quality. The focus is clearly towards a discipline-based education, with a lot of time for experimental work.

International opportunities

During your master years, you have the opportunity to do an internship and gain experience in a professional environment, such as an international company or research lab. Or you can decide to study abroad for a semester.
Within this programme you can go on exchange to:

Denmark:
- University of Copenhagen
France:
- Université Claude Bernard Lyon I
- Université Pierre et Marie Curie
- Université Montpellier I
Portugal:
- Universidade de Lisboa
Spain:
- Universitat de Girona

Student profile:

Do you want to discover new molecules or develop advanced materials with specific properties, at a university, a public or industrial research lab?
Do you want to work on energy-efficient and environmentally friendly materials and processes?
Do you want to specialise in molecular and macromolecular design, with applications in various field such as medicine, materials, etc.?
Do you want to study the impact of chemical products on the environment?
Do you want to share your knowledge and are you considering a career in education?
Do you already have a professional Bachelor’s degree and are you looking to pursue your education and increase your opportunities on the job market?

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http://www.ies.be/about. The Institute for European Studies (IES), a Jean Monnet Centre of Excellence in Brussels, offers an outstanding research-focused environment in the heart of Europe. Read more

The Institute for European Studies

http://www.ies.be/about

The Institute for European Studies (IES), a Jean Monnet Centre of Excellence in Brussels, offers an outstanding research-focused environment in the heart of Europe. Located close to the main EU institutions, and in proximity to international organisations and law firms, there are excellent networking and internship opportunities. The lES boasts excellent teaching facilities and a modern working space, right next to the amenities of the Vrije Universiteit Brussel (VUB) Etterbeek campus.

The LLM in International and European law

http://www.llminbrussels.eu/about/

The LLM in International and European law is a postgraduate LLM renowned for its outstanding quality and international character. Hosted right at the heart of the European Union, this Brussels-based LLM (formerly known as “PILC”) has offered excellence in this field for 44 years.

The programme is tailored for demanding global career in law, as the professors are nominated specifically for each course in the Programme and are an international mixture of high-ranking practitioners and leading academics.

The courses are exclusively at advanced master (i.e post-graduate) level and the curriculum covers in parallel the essential aspects of international and European law.

We have made special efforts to maintain our tuition as affordable as possible to the students. Small class size ensures a true “family feel” on a global scale.
Our over 1200 PILC alumni are of 108 nationalities.

Programme Setup

http://www.llminbrussels.eu/academics/

The LLM in International and European law is an 60 ECTS Advanced Master’s degree obtained in one academic year (from end September until early July)

The programme offers a balanced, versatile package that consists of compulsory and optional courses as well as a Master thesis.


Four compulsory courses (18 credits) giving a broad overview of the main topics of international and European law in the first semester:

- EU Institutional Framework and Judicial Protection (Profs. Devuyst and Arts);
- Globalisation, International Law and Sustainable Development (Prof. van Thiel);
- International and Comparative Law (Profs. Smis and Gosalbo);
- EU Economic Law (Prof. Joris);

These courses are accompanied by two compulsory courses (6 credits) which deepen the knowledge and insights in international and European law:

- International and European Protection of Human Rights (Prof. Gutwirth);
- International Economic Law and Organizations (Prof. Hoffmeister).

In addition, to help set the mood for the Thesis and to gain experience in teamwork in an international context, you are to team up at the start of the first semester in multinational groups of three to four students to write a joint research paper (for the ‘Globalisation, International Law and Sustainable Development’ course).

Second Semester

In the second semester you will follow the two remaining compulsory courses (6 credits):
- International and EU Competition Law (Prof. Smulders);
- EU External Relations (Prof. Martenczuk).

You also need to choose whether to complete the courses offered in the Public Law or the Business Law option.

The Public Law option:

- *Case study on Public International/EU law (Profs. Kalimo and Oberthür);
- EU Environmental Law in an International Context (Profs. Kalimo and Oberthür);
- International and European Criminal Law (Prof. Smis).

The Business Law option:

- *Case study on European Competition Law (Prof. Joris);
- European and International Private Law (Prof. Nuyts);
- International and European Taxation (Prof. van Thiel).


Teaching staff

The teaching staff is a unique mixture of renowned EU scholars and top level EU and international law practitioners. They combine academic rigour with the latest practical insights in a context of cultural diversity.

Applications and scholarships

http://www.llminbrussels.eu/admissions/

We accept and review applications on a rolling basis, starting 1 October. We recommend prospective students to apply as soon as possible, as the selection will be closed once the full quota of maximum 40 qualifying candidates is reached.

The IES Selection Committee aims at providing a decision within two weeks from receiving all the application documents and letters of reference duly completed. You will receive the decision by both by e-mail and by post.
For the period 2016-2017, IES is able to cap the tuition fee at €4800.

Visit our website for details on how to apply.

Career & alumni

http://www.llminbrussels.eu/news/

All IES students can benefit from career advice, including interview preparation and CV review at the VUB Career Centre. This unique service offered by the VUB in cooperation with Randstad was launched in 2011. Clients of the VUB Career Centre include major law firms, the European Commission, the European Parliament, European Agencies and consultancies. We have over 1200 highly successful alumni who are now working in international institutions such as the European Union, the World Trade Organization, the International Monetary Fund, the United Nations and the Organization for Economic Cooperation and Development, in national administrations, diplomatic services, the judiciary, as well as in major law firms, corporations and NGOs.

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http://www.ies.be/about. The Institute for European Studies (IES), a Jean Monnet Centre of Excellence in Brussels, offers an outstanding research-focused environment in the heart of Europe. Read more

The Institute for European Studies (IES)

http://www.ies.be/about

The Institute for European Studies (IES), a Jean Monnet Centre of Excellence in Brussels, offers an outstanding research-focused environment in the heart of Europe. Located close to the main EU institutions, and in proximity to international organisations and law firms, there are excellent networking and internship opportunities. The lES boasts excellent teaching facilities and a modern working space, right next to the amenities of the Vrije Universiteit Brussel (VUB) Etterbeek campus.

The EuroMaster

http://www.ies.be/euromaster
The MSc European Integration and Development (EuroMaster) is an advanced Master, interdisciplinary programme offered by the Institute for European Studies (IES) in cooperation with the faculty of Economic, Political and Social Sciences and the Solvay Business School.

Programme Setup

http://www.ies.be/euromaster/programme-content

The EuroMaster is an interdisciplinary programme taught in English geared towards an international range of young and mid-level professionals as well as advanced students from across the political sciences. It provides students with advanced academic training across a wide range of EU policies and concepts in order to gain a thorough understanding of the process of European integration in both its economic and political dimensions. The Programme operates as a ‘Master after Master’, requiring students to have strong and consistent marks across a minimum of 4 years of study.

The one year 60 ECTS Advanced Master's programme has two 'specialisation streams':

European Political and Social Integration (EPSI)
Economic Integration (EI)

It offers students an education of the highest academic standards on the European unification process. The Master is designed to provide graduate students of different backgrounds with an expert knowledge on European legislation, European institutions and the economic integration process.

Furthermore, those with professional backgrounds and experience in national administrations, European institutions, etc. will find the programme challenging and rewarding. A multidisciplinary approach ensures insight from economics, law, political sciences, and sociology. A maximum of 30 students will be admitted in each of the two specialisations in order to assure high quality interactive teaching.

Curriculum

Compulsory Courses:

Institutional and Political Aspects of the European Integration (first semester, 6 credits)
Theory of European Economic Integration (first semester, 6 credits)
The Rule of Law in the EU (second semester, 6 credits)
The EU and the Stakeholders of the Economy (first semester, 6 credits)
Research Methods (first & second semester, 3 credits)

'Economic Integration' Stream:

Competition Policy and State Aids (second semester, 6 credits)
Regional Development (second semester, 6 credits)
European Monetary Policy (first semester, 6 credits)

'European Politics and Social Integration' stream:

Cultures in Europe (first semester, 6 credits)
EU Foreign Policy (second semester, 6 credits)
Civil Society Representation and Diversity in the EU (second semester, 6 credits)

Master Thesis
(first & second semester, 15 credits)

Evening Programme

In order to allow students to combine this Master programme with their other professional activities, classes are organised in the evenings. The EuroMaster can be followed on a full-time (1 year) or part-time (2 years) basis.

Teaching staff

http://www.ies.be/euromaster/staff

The faculty members of the EuroMaster are all experienced teachers with extensive academic credentials (e.g. PhD, publications and research activities). Several faculty members are high level EU officials and add a strong practitioners’ perspective to our programme.

Applications and scholarships

http://www.ies.be/euromaster/application

Deadline to apply for those require a visa (non-EHEA* students): 28 February 2015.
Deadline for EHEA* area students: 30 June 2015

The programme offers a limited number of scholarships that take the form of a reduced tuition fee. These are awarded on the basis of academic merit and financial need.

Visit our website for details on how to apply.

Career & alumni

http://www.ies.be/euromaster/career-advice

Our students are offered personalised coaching and career advice at the VUB Career Centre. Clients of the VUB Career Centre include the European Commission, the European Parliament, European Agencies and consultancies. In the past decade, the EuroMaster has proved invaluable for preparing a host of students for a career in the EU institutions and international organisations. Many EuroMaster graduates now work in the European institutions and in international organisations such as NATO, the OECD, and NGOs.

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The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

The Master of Science in Architecture trains designers to realize the synergy between the engineering and the architecture disciplines.

The programme provides students with an advanced level of knowledge and insight and makes them proficient in the creative and inventive use of the engineering and architectural knowledge in a complex architectural design.

The training is characterized by the integration of scientific research in education. The design studio acts as a crystallization point in the application of knowledge with respect to architectural design, structural design, installation techniques and urban planning. Given the complex and more advanced nature of architectural design at Master level, it requires the interaction between various disciplines combined with a scientific attitude.

The programme prepares students to a wide range of job profiles such as architectural and structural engineer, project manager, consultant, employee or executive in an architectural or engineer office, supervisor of the built heritage, policy maker for urban planning, researcher and others.

The programme consist of a fixed number of compulsory courses and a number of optional courses . The second year also includes a master thesis. In this master thesis it is requested to realize a synergy between a research study and an architectural design.

Curriculum

Available on http://www.vub.ac.be/en/study/architectural-engineering/programme

Tuition fees

• €837 per year for EEA students
• €2500 per year for non-EEA students (student who require a student visa)

Student profile

You are looking for a career which is creative, challenging and fulfilling
You are driven by architectural and constructional design
You are looking for an engineering degree which combines the challenges and inventiveness of the modern building industry with a flair for originality and creativity
You are interested to study in an international environment

Admission requirements

Applicants should have acquired the following knowledge during their undergraduate studies:

For architectural science: to be able to make use of the knowledge concerning architectural theory and history in project proposals and to discourse on architectural subjects in a reasoned and critical way;

For engineering sciences: to posses the more specialized knowledge for the calculation and simulation of all technical aspects related to the execution of a project, ranging from the stability of structures, foundation techniques, building physics, building acoustics, heating, durability, lighting to the use of new materials, lightweight constructions, the re-use and renovation of existing buildings and the 4D-design;

For design: to have insight into complex problems, to be able to formulate and define a problem, to integrate multi-disciplinary knowledge in the design, to justify the steps taken in a design process, to implement design insights on a distinctive way and to present and communicate, including critical reflection.

Additionally, applicants should be proficient in English

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The Engineering faculties of the Universiteit Gent and Vrije Universiteit Brussel organize the interuniversitary Master of Biomedical Engineering and this in a close collaboration with the Medical faculties of both universities. Read more

About the programme

The Engineering faculties of the Universiteit Gent and Vrije Universiteit Brussel organize the interuniversitary Master of Biomedical Engineering and this in a close collaboration with the Medical faculties of both universities. As a result of recent evolutions towards internationalization, we also offer a complete English master program in biomedical engineering. Both the Dutch and English masters are two-year programs and lead to a joint degree from UGent and VUB. Students study either in Ghent or in Brussels upon their own choice.

Tackle complex problems in biology, medicine and health sciences

Biomedical Engineering is a branch of Engineering where students acquire knowledge and skills which can be applied to tackle complex problems in biology, medicine and health sciences. The biomedical engineer herein strives towards a solution in balance with technological, economical and ethical constraints.

Learning outcomes

Graduated students master the fundamentals of current biomedical engineering and have a thorough knowledge of the basic concepts and an overview of the main applications in various fields of biomedical engineering (medical imaging, medical signal processing, medical physics, medical device technology, tissue engineering, biomaterials...). The graduated student has acquired the necessary research skills which allow him or her to independently analyze and solve a problem, and recognizes the importance of permanent learning in a continuously evolving domain.

Work in multidsciplinary teams:
The biomedical engineer is trained to work in multidisciplinary teams (influx of students with different bachelor backgrounds, lecturers from various faculties and scientific domains, multi-disciplinary projects) and has the required communication skills.

Awareness of ethical and socio-medical aspects:
The biomedical engineer is aware of the ethical and socio-economic aspects of biomedical engineering and healthcare, and of the social responsibility of a master in engineering.

Career possibilities:
In this master's course, knowledge and skills in all fields in biomedical engineering will be given, so when you finished the Master's programme, you can be employed as generalist, and you will also be specialised in one particular field of biomedical engineering.

As a student, you are able to select any field within biomedical engineering. You will be trained to work in interdisciplinary project teams, composed of engineers and medical specialists. To prepare further for interdisciplinary teams, students and scholars are treated as equals. To train for working in a European setting, you will get knowledge in the health care situation in several countries in Europe, and you will be trained in cultural differences between European countries.

In summary, the goal of this course is to acquire the ability to:
- work in interdisciplinary (engineering – medical) teams
- work in international and thus intercultural (European) teams
- communicate effectively with experts in (bio)medicine and technology
- perform fundamental research in Biomedical Engineering.
- design innovative devices to improve diagnostics and treatment of patients
- follow a post-Master’s training in Biomedical Engineering
- perform a PhD study
- train continuously (life-long-learning)

Curriculum

Available on http://www.vub.ac.be/en/study/biomedical-engineering/programme

The programme consists of 120 credits, evenly distributed over 4 semesters of each 12 weeks. The specific part of the master involves six basic courses for a total of 30 credits (Quantitative cell biology, Modelling of Physiological Systems, From Genome to Organism, Biomechanics, Bio-electronics and Biomaterials) and 42 credits dedicated to specialist courses in biomedical engineering (Biomedical Imaging, Neuromodulation and Imaging, Medical Physics, Medical Equipment, Biomedical Product Development, Artificial Organs: Technology and Design, Health Care Organization and Informatics, Human and Environment, Safety and Regulations* and Seminars: Innovations in Biomedical Engineering). The programme is further complemented with a master thesis (24 credits) and elective courses for a total of 24 credits.

Internships and Project Work

Students are encouraged to do an internship with a company or hospital in Belgium or abroad during the summer holiday period. Internships can be valorised in the curriculum, with an internship of 4 weeks accounting for an elective course of 3 credits, and an internship of minimally 6 weeks accounting for 6 credits. A maximum of 6 credits is allowed. In addition, students can opt for the elective 3 credit course “Multidisciplinary Biomedical Project” during which they can work on an assignment or a project.

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The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

The Master of Chemical and Materials Engineering educates students to become innovative engineers who will contribute to their profession and to society. Engineers in chemistry and materials play a unique role in sustainable development, where they must manage resources, energy and the environment in order to develop and produce novel materials and chemical commodities. Our graduates are prepared to face the demands of the modern technological employment field and for an international career with English as their professional language.

Course content

The Master in Chemical and Material Engineering (120 ECTS) offers a solid core of courses in both of these engineering fields. The integrated and the multidisciplinary approach provides students up-to-date knowledge enabling them to propose innovative engineering solutions in numerous modern technological sectors. Students have the possibility to specialize in Process technology or Material Science.

The Master of Chemical and Materials Engineering program consists of two profiles: Process Technology and Materials.

Profile: Process Technology:
The Process Technology orientation trains students to become engineers who are employable and innovative both in production units (operation and optimization of production facilities) and in engineering groups (develop new production units that meet desired performance specifications). An emphasis is placed on the biotechnology and food industries. Students are also trained to identify, solve and avoid environmental problems including waste management, water, air and soil pollution.

Profile: Materials:
The Materials orientation prepares students for the materials and materials technology sectors (metals, polymers, ceramics and composites). Students are trained to become creative engineers capable of designing sustainable multi-functional materials which meet specific applications. Students also have the capacity to contribute to the whole life-cycle of materials from their processing into semi or full end products using environmentally friendly and safe production processes to their recycling.

Become a skilled scientific engineer

This Master offers:
- a unique interdisciplinary programme which prepares you for employment in a professional field related to chemical engineering, materials or environmental technology.
- a high level scientific education that prepares you to a wide range of job profiles.
- the possibility to work in close contact with professors who are internationally recognized in their own disciplines and favor interactive learning.

Curriculum

http://www.vub.ac.be/en/study/chemical-and-materials-engineering/programme

The programme is built up modularly:
1) the Common Core Chemical and Materials Engineering (56 ECTS)
2) the Specific Profile Courses (30 ECTS)
3) the master thesis (24 ECTS)
4) electives (10 ECTS) from 1 out of 3 options.
Each of the modules should be succesfully completed to obtain the master degree. The student must respect the specified registration requirements. The educational board strongly suggests the student to follow the standard learning track. Only this model track can guarantee a timeschedule without overlaps of the compulsory course units.

Common Core Chemical and Materials Engineering:
The Common Core Chemical and Materials Engineering (56 ECTS) is spread over 2 years: 46 ECTS in the first and 10 ECTS in the second year. The Common Core emphasizes the interaction between process- and materials technology by a chemical (molecular) approach. The Common Core consists out of courses related to chemistry, process technology and materials and is the basis for the Process Technology and the Materials profiles.

Specific Courses Profile Materials:
The profile 'Materials' (30 ECTS) consists out of 2 parts, spread over the 1st and the 2nd year of the model learning track: Materials I - 14 ECTS in MA1 and Materials II - 16 ECTS in MA2. The profile adds material-technological courses to the common core.

Specific Courses Profile Process Technology:
The profile 'Process Technology' (30 ECTS) consists out of 2 parts, spread over the 1st and the 2nd year of the model learning track: Process Technology I - 14 ECTS in MA1 and Process Technology II - 16 ECTS in MA2. The profile adds process technological courses to the common core.

Elective Courses:
The elective courses are divided into 3 options:
- Option 1: Internship (10 ECTS)
- Option 2: Elective courses (incl. internship of 6 ECTS)
- Option 3: Entrepreneurship
The student has to select one option and at least 10 ECTS within that option. All options belong to the 2nd year of the model learning track.

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The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

This Master offers

- An in-depth understanding of the main aspects of analysis and design of all kinds of advanced load-bearing constructions, as well as of material technology.
- Strong links with a wide range of industrial organisations in all branches of engineering, including civil engineering consultants, contractors, public service organisations and materials suppliers.
These help to provide an exciting and industrially relevant environment for study and project work throughout the degree courses.

Focus on design and analysis of advanced structures

The main objectives of this master programme are to develop an in-depth understanding of the main aspects of analysis and design of all kinds of advanced load-bearing constructions, as well as of material technology. Important issues are the optimization of the form of the structure, the selection of the materials and the construction method in terms of mechanical properties, environmental impact, life cycle cost and sustainability. Both conventional reinforced and pre-stressed concrete or steel structures and systems in novel materials (fibre reinforced, cellular, hybrids...) are considered.

A competent civil engineer within broad range of technical skills

In addition, the objective is to provide civil engineers within a broad range of technical skills which will enable them to take a professional approach to civil engineering problems, to gather and assimilate the required information in an efficient manner, to formulate and implement a solution method and to execute and administer the projects they are involved in.

Conduct scientific research in critical and self-reliant manner

This balanced training is closely linked to scientific research in related fields. This will serve as a basis for 'lifelong learning'. In particular, the education shall provide the necessary knowledge and competences to conduct scientific research in a critical and self-reliant manner or as a member of a team. This Master provides a profound scientific background to the design and construction of all kinds of advanced load-bearing systems, as well as the required competences and attitudes to become a responsible staff member.

Generic skills

Practicing the profession of Civil Engineer involves a number of generic skills, including:
- reasoning skills: logical thinking and spatial vision
- communication skills: the ability to compile reports and hold presentations
- managerial skills: planning, organizing and leading activities, efficient time management
- interpersonal and social skills: a sense of responsibility and teamwork
- creativity and entrepreneurial spirit
- awareness of the necessity of ongoing training in recent technological, industrial and scientific developments

Student profile

You are interested in becoming a competent civil engineer with a broad range of technical skills
You are someone with good reasoning skills, logical thinking and spatial vision and would like to study in an international environment
You are someone who enjoys working in close contact with professors and wants to study in the capital of Europe

Curriculum

Available on http://www.vub.ac.be/en/study/civil-engineering/programme

The standard track in Master of Science in Civil Engineering (120 ECTS) is made up of 4 modules:
1) compulsory common courses (60 ECTS)
2) option blocks (1 option to choose out of 3 that are provided, 16 ECTS each)
3) electives (thematic lists) (20 ECTS to choose)
4) the Master Thesis (24 ECTS)

Each of the modules should be succesfully completed to obtain the master degree. The student must respect the specified registration requirements. The Curriculum Board strongly suggests the student to follow the standard learning track. Only this model track can guarantee a timeschedule without overlaps of the compulsory course units.

Read less
The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

This Master offers:

- A broad range of scientific knowledge combining a multidisciplinary engineering training with an in-depth specialisation in the chosen major.
- Students the necessary tools to begin a productive career in engineering practice or research.
- Close contact with highly qualified academic staff and specialists from industry and research institutes.
- The best international context you can think of in Europe. Study in Brussels, the capital of Europe!
- A gateway to a challenging and exciting future.
- Students the opportunity to become an engineer with scientific and technological efficiency

The program trains engineers with scientific and technological efficiency. The program is academic, meaning that it is characterized by close links to scientific research in the related fields as well as the profession.

Students must obtain a scientific balance between thorough, critical knowledge and practical skills, with emphasis on independence, creativity and inventiveness.

The academically educated engineer must be eager to study throughout his/her career in order to be able to assimilate the results of research and learn new skills. He/she must be able to solve problems. In addition, he/she should have both social and language skills.

Specific objectives

- To train engineers specialized in machine construction, the automobile industry, thermal installations, aircraft construction, consulting firms, application of machinery, maintenance of chemical, petrochemical and nuclear companies, production, distribution and application of electric energy (including power electronics and maintenance of industrial installations)
- To specialize in electromechanical engineering while maintaining a broad-based education by balancing the specialization with more general subjects.

Choose between four majors

This master enables students to build a broad ranging scientific knowledge combined with a multidisciplinary engineering traiwithning an in-depth specialization in the chosen major: Aeronautics, Energy, Mechatronics-Construction or Vehicle Technology and Transport.

Aeronautics: students will become engineers who are competent in the many aspects of cutting-edge technologies in the aeronautics sector and their spin-off possibilities in other industrial sectors. The programme includes all aspects of construction, exploitation and maintenance of aircraft and spacecraft.

Energy: students will become engineers who are specifically well-acquainted with systems for production, transport distribution and electronic conversion of energy, as well as its transformation into mechanical energy. Sustainable energy, rational use of energy and energy management are also covered.

Mechatronics-Construction: students will become engineers who are able to optimally design, produce, maintain and apply complex electromechanical systems..

Vehicle Technology and Transport: students will become engineers who can design systems in which transportation of people and goods are central, with special attention to innovative, environmentally friendly vehicles

Curriculum

Available on http://www.vub.ac.be/en/study/electromechanical-engineering/programme

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This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities. Read more

Organizing institutions

This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities: Vrije Universiteit Brussel, Katholieke Universiteit Leuven, Universiteit Gent, Université de Liège , Université Catholique de Louvain et Université Libre de Bruxelles and the Belgian Nuclear Research Centre (SCK-CEN). Students can enroll for this master program at each of the six partner universities. The program is built up of 31 ECTS of common compulsory courses, 9 ECTS of elective courses and a compulsory Master Thesis of 20 ECTS.

The primary objective of the programme is to educate young engineers in nuclear engineering and ts applications and to develop and maintain high-level nuclear competences in Belgium and abroad. BNEN catalyses networking between academia, research
centres, industry and other nuclear stakeholders. Courses are organised in English and in a modular way: teaching in blocks of one to three weeks for each course, allowing for optimal time management for professional students and facilitating registration for individual modules.
All courses take place at SCK•CEN, in Mol, Belgium. The lectures take place in a dedicated, brand-new classroom in the conference centre of SCK•CEN (Club-House), located in a wooded area and nearby the SCK•CEN restaurant and library services. SCK•CEN offers a variety of accommodation options: houses, villas, studios and dormitories. For more information visit: http://www.sckcen.be

About the programme

The one-year progamme was created in close collaboration with representatives of the utility companies and power plants and teaches students in all aspects of nuclear technology and its applications, creating nuclear engineering
experts in the broad sense. Exercises and hands-on sessions in the specialised laboratories of SCK•CEN complement the theoretical classes and strengthen the development of nuclear skills and attitudes in a research environment. Various technical visits
are organised to research and industrial nuclear facilities.
The programme can be divided into three core blocks:
ƒ- A set of introductory courses allowing refreshing or first contact with the basic notions of nuclear physics, material sciences and the
principles of energy production through use of nuclear phenomena.
ƒ- A core block of nuclear engineering applied to power generation and reactor use; theory of reactors and neutronics, thermal hydraulic problems encountered in reactor exploitation, the nuclear fuel cycle and the specific material corrosion problems.
-ƒ An applications block where safe and reliable operation of nuclear power plants and the legal and practical aspects of radiation protection and nuclear measurements are discussed.

Scholarships

BNEN grants are available for full-time students.

Curriculum

http://www.vub.ac.be/en/study/nuclear-engineering/programme

Nuclear energy: introduction 3 ECTS credits
Introduction to nuclear physics 3 ECTS
Nuclear materials I 3 ECTS
Nuclear fuel cycle and applied radiochemistry 3 ECTS
Nuclear materials II 3 ECTS
Nuclear reactor theory 8 ECTS
Nuclear thermal hydraulics 6 ECTS
Radiation protection and nuclear measurements 6 ECTS
Operation and control 3 ECTS
Reliability and safety 3 ECTS
Advanced courses 4 ECTS
Master thesis 15 ECTS
Total 60 ECTS

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The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

This Master offers:

- A broad scientific and profound practical knowledge of technology, with attention to the social, moral, juridical, economical and environmental aspects of their activities.
- A profound knowledge of electronic circuits and systems knowledge of telecommunications and computer-controlled systems.
- Basic knowledge of information theory, treatments of signals and images, multimedia and photonics.
- A profound knowledge of modeling, systemidentification, electric and electronic
measurements and industrial control.
- Basic knowledge of economics and management informatics and software
engineering.

Learning outcomes:

- The students are ready for an international career with English as working language.
- They are prepared to take responsibilties, can withstand stress, can act individually but can also function in a group.
- They are intellectually mobile and curious, they can act upon necessary evolutions, they are prepared for life-long learning, especially in their own field of specialization.
- Scientific knowledge in their own field
- The students already have some experience in conducting research and can consequently contribute to technological and/or scientific innovations.
- They have a profound and active knowledge of the theory and applications of electronics and information technology.

Student profile

Are you interested in electronics and information technology?
Are you looking for a balance between a rigorous scientific and technical formation and practical skills, with emphasis on independence, creativity and inventiveness?
Are you interested in specialising in electronics and information technology engineering while maintaining a broad-based education by balancing the specialisation with more general subjects?
Are you looking for an academic programme closely linked to scientific research?

Curriculum

Available on http://www.vub.ac.be/en/study/electronics-and-information-technology-engineering/programme

The standard track in the Master of Science in Electronics and Information Technology Engineering (120 ECTS) consists out of 5 modules:
1) Common compulsory courses (47 ECTS)
2) Compulsory/Elective courses in year 1 (13 ECTS)
3) One compulsory, masterspecific option package (1 set to accomplish out of 3 sets provided, 24 ECTS each)
4) Free elective courses and/or an internship (12 ECTS)
5) Master Thesis Electronics and IT-Engineering (24 ECTS)

Each of the modules should be succesfully completed to obtain the master degree. The student should respect the specified registration requirements. The educational board strongly suggests the student to follow the standard learning track. Only this model track can guarantee a timeschedule without overlaps of the compulsory course units.

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This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS). Read more

International Course Programme

This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS).

The Master of Water Resources Engineering addresses water-related issues in developed and developing countries, with a focus on problems in the latter. The MSc programme provides multi-disciplinary and high-quality higher education in the field of water resources engineering.

Water Resources Engineering deals with the methods and techniques applied in the study of:
- water needs for agriculture, industry, households, recreation, navigation, hydroelectric power generation;
- problems related to storm water drainage and flood damage mitigation;
- problems related to water quality in streams and aquifers, erosion, sedimentation, protection of ecosystems and other natural resources;
- integrated water management; and
- institutional, socio-economic, and policy issues related to water resources development and management.

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Curriculum

Details available on http://www.iupware.be/

The Interuniversity Programme in Water Resources Engineering offers a two year Master of Water Resources Engineering course, which is intended for graduates (or equivalent) in engineering, agriculture, hydrology and other related subjects. The main goal is to offer comprehensive training in water resources engineering to engineers and scientists from developing as well as industrialized countries. The programme blends various basic and applied courses, hydrology and engineering sciences associated with water resources development with appropriate organizational and managerial skills. The course is specially tailored for those who want to develop their knowledge and understanding of water resources engineering, and are or expect to be involved in the design, operation or day-to-day management of water resources schemes in developing countries or anywhere in the world.

The first year curriculum is common for all participants while in the second year, a common base with optional courses. After successful completion of the 2-year study programme, a Master of Water Resources Engineering degree is offered.

In the 1st year of the study programme a review of the basic knowledge is proposed, in order to achieve a common base level between students with different backgrounds. The 1st year is primarily organized at the K.U.Leuven. This programme consists of a number of courses (Advanced mathematics for water engineering, Statistics for water engineering, Irrigation agronomy, Aquatic ecology, Hydraulics, Surface Hydrology, Groundwater Hydrology and Water quality assessment, monitoring and treatment) and 4 workshops: (1) Hydrological data processing; (2) GIS; (3) Hydrological measurements and (4) Remote sensing.

In the the 2nd year of the Master programme, a broad spectrum of topics is given to ensure the coverage of the main aspects related to water resources engineering. The topics in the second year are intended to broaden the water resources engineering knowledge and to provide a deeper understanding in either Hydrology, Irrigation, Water Quality or Aquatic Ecology depending on the area of specialization. The 2nd year is primarily organized at the V.U.B. The courses in the programme make extensive use of modelling tools relevant to various aspects of the design, operation and management of water resources development projects.

Admission requirements

Candidates must hold a Bachelor's degree from a four-stage programme in agricultural, civil or environmental engineering. Study results should reflect the equivalent of a 70% pass rating in Flanders. Students should have a proven proficiency in English. Applicants from non-English-speaking countries should have a TOEFL score of at least 550 on the written test and 213 on the computer-based test or equivalent results on similar language test.

Students from a 5-stage engineering or equivalent degree, including the prerequisites to the second stage courses, can be exempted from 60 ECTS. Applications are evaluated on an individual basis.

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