This course is one of the premier international applied petroleum geoscience courses. Since the inception of the course in 1985 its graduates have an unparalleled employment record in the petroleum industry both in the UK and worldwide. In addition our graduates are highly sought after for further PhD research in the petroleum geosciences.
● Recognised by NERC - 5 MSc studentships each year covering fees, fieldwork and maintenance.
● Recognised by Industry - Industry scholarships
● We offer highly focused teaching and training by internationally recognised academic experts as well as by visiting staff from the petroleum industry.
The course covers the applications of basin dynamics and evolution to hydrocarbon exploration and production. The course is modular in form providing intensive learning and training in geophysics, tectonics and structural geology, sequence stratigraphy and sedimentology, hydrocarbon systems, reservoir geology, remote sensing and applied geological fieldwork.
The MSc course provides ‘state of the art’ training in -
● 3D seismic interpretation and 3D visualization;
● Fault analysis and fault-sealing;
● Seismic sequence stratigraphy;
● Applied sedimentology;
● Well log analysis;
● Remote sensing analysis of satellite and radar imagery;
● Analysis of gravity and magnetic data;
● Numerical modelling of sedimentation and tectonics;
● Applied structural geology;
● Geological Fieldwork.
● Transferable skills learned during the course include
project planning, presentation techniques, report writing and compilation, team working skills, spreadsheet and statistical analyses, GIS methods as well as graphics and visualization techniques.
● The full time MSc course runs for 50 weeks. The first half comprises one and two week course modules as well as group projects and fieldwork. The second half of the MSc course consists of an individual research project usually carried out in conjunction with the petroleum industry or related institutions such as international geological surveys.
● Part time study over 24 months is also available
● Each year independent projects are arranged with new data sets from industry – some students work in the offices of the company whereas other may use our excellent in-house facilities. All independent projects are supervised by faculty members with additional industry supervision where appropriate.
Facilities include –
● Dedicated Modern Teaching Laboratories
● 14 Dual Screen Unix Seismic Workstations
● PC and Macintosh Workstations
● Internationally Recognised Structural Modelling Laboratories
● Advanced Sedimentological Laboratories
The MSc course also greatly benefits from dynamic interaction with internationally recognised research groups within the Geology Department including –
● Project EAGLE – Evolution of the African and Arabian rift system – Professor Cindy Ebinger
● Southeast Asia Research Group – Tectonic Evolution and Basin Development in SE Asia – Professor Robert Hall
● Numerical Modelling Research Group – Numerical Modelling of Tectonics and Sedimentation – Dr Dave Waltham
● Fault Dynamics Research Group – Dynamics of Fault Systems in Sedimentary Basins – Professor Ken McClay
The 2005 MSc graduates went on to employment with Shell, BP, Amerada Hess, Gaz de France, OMV (Austria), Star Energy, First Africa Oil, Badley Ashton, ECL, PGS, Robertsons, PGL, Aceca, and to PhD research at Royal Holloway and Barcelona.
Since 2001, 85% of our graduates have gone in to work in the oil industry, 10% into geological research and 5% into environmental/engineering jobs.
Accommodation is available on campus in en-suite study bedrooms grouped in flats of eight, each with a communal kitchen and dining space.
Subsistence Costs ~£9,000 pa (including Hall of Residence fees of c. £4,500 for a full year)
APPLICATIONS can be made on line at http://www.rhul.ac.uk/Registry/Admissions/applyonline.html
With the eastern Mediterranean as our natural marine laboratory, the International M.Sc. Program in Marine Geosciences provides students with a unique opportunity to develop practical scientific experience at sea alongside a rigorous academic curriculum.
Established in 2007 as part of the multidisciplinary Leon H. Charney School of Marine Sciences, the Department of Marine Geosciences combines research and graduate studies of the marine environment in the following main disciplines: exploration geophysics, seafloor mapping, remote sensing, geodynamics, tectonics, marine and coastal sedimentology, geochemistry, chemical and physical oceanography.
The two-year MSc program will begin in October.
Topics to be covered include: the structure of the seafloor; the Earth’s crust below it and the search for energy sources (oil, gas, hydrates); the dynamics of the water body above it; sea level variations and their relation to tectonic and climate changes; coastline developments in present and past times; and, finally, present and past influences on human evolution. Students will have the opportunity to interact with central research institutions in Israel including the Israel Oceanographic and Limnological Research Institute, the Geological Survey of Israel, the Geophysical Institute of Israel and other industrial institutes.
Taught in English, the program can be completed in two years and begins every October. Coursework, field trips and an educational cruise are held during the first two semesters, the summer semester is dedicated to establishing a research proposal, while the second year is dedicated to conducting research. Students will be required to submit a research thesis at the end of the second year of the program. Upon completion of the program, students will be awarded a Master of Science in Marine Geosciences.
For a full and detailed list of the program curriculum, please visit here.
Full Scholarships for outstanding students from China and India!
Graduates of the program will be well-placed to pursue careers within government research agencies, onshore and offshore site investigation contractors or consultancy companies, and various branches of higher education and research.
Students will gain practical experience in marine geophysical survey work through hands-on field activities. The program includes educational research cruises to the deep sea, coastal and underwater field excursions, as well as geological field trips to marine structures currently exposed onshore. The research and educational cruises are carried out in water bodies in and surrounding Israel – the Mediterranean, the Dead Sea, the Red Sea and the Sea of Galilee.
For more information on the course curriculum and course description please click here.
Currently, the Department of Marine Geosciences faculty includes seven senior members and six adjunct faculty members. The department is currently under the leadership of Professor Uri S. Ten Brink whose fields include marine geophysics, tectonics, earthquakes, landslides and tsunami hazards.
For a full list of faculty staff and their specialisations please visit here.
This program is eligible for MASA scholarship.
A number of full-tuition scholarships for outstanding students from China and India are available.
Further information on scholarships and financial aid can be found here.
Join us for our Master Open Day to find out more about our courses.
The only applied structural geology Masters in the UK. Providing you with advanced training in the practical application of structural geology, preparing you either for employment in the hydrocarbon or mining industries or for postgraduate study (PhD).
You’ll gain a skillset combining advanced structural techniques and interpreting seismic data, an understanding of structural systems in time and space, and an appreciation of both the geological and geophysical constraints of seismic interpretation and model building.
This will enable you to use a combination of structural and geophysical techniques to solve geological problems. As a capable seismic interpreter you’ll be able to contribute in an industry role from day one.
Our teaching is research led, with direct links to active applied research. You’ll be taught by a range of research and industry experts, as well as through industry-led workshops. Strong industry links are a feature of this course.
The following fieldwork to the UK and overseas is free, and forms an integral part of the course. It is directly linked to learning outcomes in the classroom.
If you are considering a career or enterprise in oil and gas management or its associated supply chain this degree draws from the strengths of both academics at University of Aberdeen and industry professionals in the city who have helped to shape the programmes and modules from their learning and experiences. The university offers knowledge spanning fifty years in oil and gas production and commercialisation. The university has worked closely with the industry since its inception in Aberdeen city and in the 1970s to provide advanced level learning in the sector.
The programme uniquely offers a great range of knowledge across Geology and Engineering, Business and Law specific to the oil and gas industry but applicable to other similar industries with similar features. The degree offers great value in terms of the range of disciplines it covers and it will open up a range of careers internationally. It also gives you the confidence and knowledge to start up an enterprise yourself or work in mid to senior management within an already established company. Business and Law modules will be very useful to a great many commercial situations and sectors if you choose to apply your knowledge in the future. This also applies to Geology and Engineering which are also subjects in themselves when it comes to employment options.
This programme is ideal for small specialist companies working with National Oil Companies and energy ministries to commercialise innovation in science and technology and improve hydrocarbon exploration. It combines science with law politics and economics. Alumni work internationally across the supply chain and some of them have started their own businesses.
Find out about fees
*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.
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This MSc is a uniquely broad and flexible programme that suits students' aspirations, background and experience. UCL Earth Sciences has strengths in geophysics, geochemistry, palaeobiology, mineral physics, geodynamics, geohazards, climate science, environmental geosciences and policy, and other areas. Students choose from a wide range of optional modules from within the department and more widely across UCL, building an MSc tailored to their interests.
The programme aims to integrate theoretical studies with essential practical skills in the Earth sciences, both in the field and in the laboratory. Students develop the ability to work on group projects, prepare written reports, acquire oral skills and gain training in the methods of scientific research.
Students undertake modules to the value of 180 credits.
The programme consists of three core modules (45 credits), six optional modules (75 credits) and a research dissertation (60 credits).
Students can also choose relevant elective modules from UCL Geography.
All MSc students undertake an independent research project which culminates in a dissertation of approximately 10,000–12,000 words.
Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, and laboratory and fieldwork exercises. Student performance is assessed through coursework, written assignments, unseen written examination and the dissertation.
Crustal Dynamics, Mountain Building and Basin Analysis is a fieldwork only module without a classroom element.
Further information on modules and degree structure is available on the department website: Geoscience MSc
Geoscience students have gone on to pursue careers in many varied areas, such as planning and surveying, governmental organisations, academic research.
Recent career destinations for this degree
Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.
UCL Earth Sciences is engaged in world-class research into the processes at work on and within the Earth and planets.
Graduate students benefit from our lively and welcoming environment and world-class facilities, which include the UK's only NASA Regional Planetary Image Facility and access to the University of London Observatory in north London.
The department also hosts the UCL Hazard Research Centre, Europe's leading multidisciplinary hazard research centre, and engages in extensive collaborative work with the Royal Institution and the Natural History Museum.
The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.
The following REF score was awarded to the department: Earth Sciences
92% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)
Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.
In the Master in Earth Structure and Dynamics, you will explore the composition, structure, and evolution of the Earth’s crust, mantle, and core. During this two-year programme, you will learn to link geological, geophysical, geochemical, and geodetic observations made at the Earth’s surface to physical processes operating within the planet.
The programme combines physics, chemistry, mathematics, geology, and field studies to address how the solid Earth works. It allows you to specialize in virtually any aspect of solid Earth science, ranging from theoretical geophysics to pure geology or geochemistry. Many students choose a combined geology-geophysics focus.
The main subject areas you will study consist of seismology, tectonophysics, mantle dynamics, structural geology, metamorphism, magmatic processes, basin evolution, hydrocarbon and mineral deposits, and the properties of Earth materials. You will examine processes ranging from slow geodynamic processes – such as mantle convection, plate tectonics, and mountain building – to those that can have an impact during a human lifetime. These include active crustal deformation, seismicity, and volcanism as well as subsidence, uplift, and seismicity induced by hydrocarbon production and geological storage of CO2.
Please visit the programme's website for more information.
You can choose one of three specialization tracks based on your interests in the field: