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This master's programme focuses on the analysis of dynamic environments. past. present, and future. Concerns over human impacts on the environment have stimulated demand from governments and industry for the monitoring, analysis and modelling of natural processes in environmental systems. Read more
This master's programme focuses on the analysis of dynamic environments: past. present, and future. Concerns over human impacts on the environment have stimulated demand from governments and industry for the monitoring, analysis and modelling of natural processes in environmental systems. This is essential if we are to improve understanding of the interrelation of environmental variables in order to predict and manage their responses to anthropogenic perturbations.

You will gain:
-Advanced theoretical knowledge and practical expertise in order to collect, interpret and analyse contemporary and past environmental data.
-Modelling skills, in order to investigate the interrelationships between environmental variables, and to predict their responses to changing internal and external conditions.
-Intellectual and practical skills, in order to design and undertake field and/or laboratory experiments in contemporary environmental process-monitoring, or palaeoenvironmental reconstruction, and to design and test appropriate environmental models with the data you collect.

These skills are highly relevant if you wish to pursue a career in environmental management, or consultancy, and provide a firm grounding for research in the environmental sciences. Dr Jason Dortch directs the course, with input from other physical geographers working on a wide variety of aspects of environmental change. Current research includes:
-Measurements and predictions of climate change
-Glaciers and ice sheets (past and present)
-Biogeography
-Palaeoecology
-Environmental pollution
-Upland geomorphology (low relief, e.g. British uplands, and high relief, e.g. Himalayas)
-Remote sensing for environmental management
-Moorland erosion control
-Hydrology
-Water resource management
-Fire management
-Tectonic geomorphology

We also use the proximity of Manchester to the upland areas of the Peak District; several past MSc students completed dissertation work in close collaboration with various organisations responsible for land management in the Peak District, giving their work direct policy relevance.

Aims

Teaching focuses on training in theory, concepts and research skills in the first semester, and practical applications and research experience in the second semester.

We teach course units in small-group interactive styles with a mix of lectures, tutorials, seminars, practicals and presentations. A range of physical geographers provide training in their specialised fields, covering both content and practical research methods.
In a typical week, expect to spend some time in the library, preparing for seminars; in the laboratory, completing practicals; in the dedicated postgraduate computer laboratory, or writing reports; and in the classroom.

The second semester in particular gives you increased opportunities to go out into the field, both for practicals and to gain research experience by doing field research with members of staff. We maintain an intensively monitored catchment on the moors near the Snake Pass in the Peak District and this is the focus of several practical exercises, as well as a source of data to support dissertation work.

Field and laboratory research are essential to your learning process in environmental monitoring, and these form integrated parts of both the taught units and dissertation work.

Career opportunities

In the second semester, various speakers from environmental employers visit the department to give a flavour of their work and advice on employment.

The MSc in Environmental Monitoring, Modelling and Reconstruction has an excellent track record in providing a springboard for students to go on to careers in environmental industries, consultancies and government agencies, or to further research for higher degrees.

Recent graduates have found employment in agencies like the UK Atomic Energy Authority, The Environment Agency, Natural England and a range of environmental consultancies. Others have moved on to undertake full-time research for a PhD.

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IAAC offers in Barcelona an international Master programs in Advanced Architecture (MAA01), oriented to architects, engineers and designers from all over… Read more
IAAC offers in Barcelona an international Master programs in Advanced Architecture (MAA01), oriented to architects, engineers and designers from all over the world eager to imagine the future of our cities and societies and committed to build it in the present.The Master in Advanced Architecture program emerges as an innovative open structure focusing on three select Research Lines (Intelligent Cities, Self-sufficient Buildings, Digital Matter-Intelligent Construction) all led by internationally renowned experts, and bringing together students and faculty from different disciplines and origins, towards the creation of a networked hub of excellence, the IAAC Community,  dedicated to research and innovation for the habitability of the 21st Century. The Master in Advanced Architecture is accredited by the Universidad Politècnica de Catalunya (UPC) with respectively 75 ECTS and 130 ECTS. The MAA is directed by the architect and researcher Areti Markopoulou.

You can find more information on our blog: http://www.iaacblog.com/programs/courses/maa-01/

Course Structure

The Master in Advanced Architecture is articulated in three different programs: MAA01, MAA01+OTF and MAA02. During the first year (October 2017 – June 2018) the students enrolled in the programs will work together in a common educational platform, with a common organization and academic structure. After the completion of MAA01, students enrolled in MAA01+OTF or MAA02 will follow two different organizations and academic structures. MAA02 combines the first year Master with a second year of investigation to develop a thesis project. During this second year students are required to deal with a project counting on the possibility to develop it with international faculty and enterprises, highly specialized in different fields. MAA+OTF combines MAA01 with a postgraduate program called Open Thesis Fabrication (OTF), which is an intensive applied research program that combines Academy and Industry. Nowadays its focus is on pylos projects and self sufficiency. There is also the possibility to extend the master in two years, during this second year the aim is to focus on your own thesis project. You can find more information on the IAAC blog: http://www.iaacblog.com/programs/courses/maa-01/

Student Profile

Candidates for the Master in Advanced Architecture are architects, engineers and designers from all over the World curious about how the world is changing and committed to drive this change.Therefore the program is oriented at graduates who wish to commit and develop their design research skills in the context of new forms of practice within architecture and urbanism, ranging from large-scale environments to tectonic details and material properties.Once successfully finished the master, IAAC students will join the IAAC Alumni Community. This is today is an active and dynamic network of visionary professionals distributed around the world, promoting principles and applications of Advanced Architecture, exploring new academic and research initiatives, leading award winning practices or working for internationally acclaimed firms and institutions.

Request More Information

If you have any questions about the program, or would like to request more information please get in touch here: https://iaac.net/iaac/contact/

Skype

Would you like to talk to our admissions specialist on Skype? Skype ID iaac.admissions.

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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. Read more

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



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This is one of the premier international applied MSc courses with a focus on petroleum exploration and production. It is run in parallel with the Basin Evolution and Dynamics MSc in Petroleum Geocsience but with a greater emphasis on tectonics and structural geology. Read more
This is one of the premier international applied MSc courses with a focus on petroleum exploration and production. It is run in parallel with the Basin Evolution and Dynamics MSc in Petroleum Geocsience but with a greater emphasis on tectonics and structural geology. In addition to successful employment in the international petroleum industry graduates from this course are employed in the international mining industry as well as being highly sought after for further PhD research in the geosciences.

● 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 and remote sensing industries.

The course covers the applications of tectonics and structural geology to hydrocarbon exploration and production as well as to applied structural geology research in different terranes. The course is modular in form providing intensive learning and training in tectonics, applied structural geology, seismic interpretation of structural styles, tectonostratigraphic analysis, section balancing and reconstruction, remote sensing, crustal fluids and hydrocarbon systems, reservoir geology, and applied geological fieldwork.

The MSc course provides ‘state of the art’ training in –
● Plate tectonics and terrane analysis;
● Applied structural analysis;
● 3D seismic interpretation and 3D visualization of structural styles;
● Fault analysis and fault-sealing;
● Tectonostratigraphic analysis;
● Scaled analogue modelling;
● Numerical modelling of structures;
● Remote sensing analysis of satellite and radar imagery;
● Analysis of gravity and magnetic data;
● Section balancing and reconstruction;
● Applied structural 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
● Internationally Recognised Structural Modelling Laboratories
● 14 Dual Screen Unix Seismic Workstations
● PC and Macintosh Workstations
● 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

Our Tectonics MSc graduates have gained employment with Shell, BP, ECL, PGS, Sipetrol, PGL, Codelco, and to PhD research in a range of universities including Trieste, Barcelona, and Ulster universities.
Since 2001, 85% of our Petroleum Geosciences MSc 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

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It is expected that applicants from the field of architecture will already possess an accredited graduate diploma or postgraduate degree in architecture (UK), a professional master's in architecture (US), or the international equivalent. Read more
It is expected that applicants from the field of architecture will already possess an accredited graduate diploma or postgraduate degree in architecture (UK), a professional master's in architecture (US), or the international equivalent.

The MArch course is an experimentally minded design studio. You will be working with students from all over the world to generate design proposals that explore the edges of architectural thought.

There is an emphasis not only on the materials and techniques of construction but also elements such as air, heat, water, sound, smell and lights as materials too. This exploration will involve visits to factories and workshops where materials are manipulated in a variety of unusual ways, and also practical experimentation and testing in the studio environment.

This programme offers the opportunity to explore ideas in great detail, resulting in a thesis that might take the form of a video, set of drawings or physical model. The portfolio generated alongside the thesis will act as a curated record of your findings.

Why choose this course?

Oxford Brookes University is unusual in offering this design-based speculative research course in architecture that builds on its excellent reputation for architectural courses at postgraduate and undergraduate level. Brookes' School of Architecture is recognised as one of the country's leading schools and is consistently ranked by The Architects' Journal as one of the five best schools in the UK.
Students from the school figure regularly in national and international prizes and awards, and go on to work for many of the best-known practices in the country. We have an international reputation in research, in areas ranging from sustainable design to modular buildings and from design for well-being to vernacular architecture.

Staff in the school regularly secure research funding from the UK's research councils and the European Union as well as industry, with an annual research grant income averaging £1,000,000 in recent years. This research expertise feeds directly into the teaching programme at all levels, from undergraduate to PhD. The School of Architecture has dedicated studio space and postgraduate facilities.

This course in detail

The Advanced Architectural Design Modules (50+30 credits) represent the core of the learning experience. Project–based learning is used in a studio environment to individually and collectively explore architectural design problems. The design studio tutors will set the specific design problem and methodology employed. It is envisaged that several parallel studios may be established, numbers permitting, each led by separate studio tutors with different agendas, programmes and methodologies. However, the learning outcomes will be common. Initially, there will be only one studio which will be organised as follows:

The first semester is always a rigid organised fabric of reviews, workshops, tutorials and deadlines with students working both individually and in groups. Within this framework students engage in two strands of investigation: A. an in-depth research into the tectonic possibilities of a new material/s and B. the analysis of a real site with the aim of generating a series of questions that demand an architectural response. By the end of the semester each student is expected to present to a jury of invited critics a catalogue both conceptual and material, from which they will make a project, in a coherent manner using appropriate media. This jury provides formative feedback for students on their learning.

The first semester design studio is complimented by a series of challenging, group and individual based workshops, Urban Cultures, on drawing, model making and movie making, run by the tutors. Students are expected to engage in questioning and debate with the lecturers and are required to produce a series of responses in drawn and written forms, which contribute to their design portfolio, around a theme related to the lecture series.

Spread over the second semester there is a further series of lectures on Architecture and the City given by external academics and practitioners. Students are expected to engage in questioning and debate with the lecturers and are required to produce a series of responses in drawn and written forms to exercises set by the visiting lecturer. The results are to be bound into a book, which contributes to and supports their design portfolio, around a theme related to the lecture series.

The second semester design studio focuses on the architectural implications of bringing the two apparently dissimilar strands of the first semester’s investigation into surprising conjunctions. Students are asked to approach the possibilities created by these apparently disconnected procedures in an entirely logical way.
At this stage the studio places emphasis on the importance of developing students’ ability to demonstrate conceptual clarity, to locate their ideas in the spectrum of current and past architecture and to maintain a strong link between concept and product.

Students are also encouraged to explore a wide range of media and technique and to develop a rationale for selecting appropriate techniques for the representation of particular kinds of architectural ideas. Students are required to present their design projects to an invited group of invited critics close to the end of the semester.

This proves formative feedback for students. The final Module mark is generated from a portfolio-based assessment held at the end of the second semester involving a panel internal staff. This system will ensure a parity of marking when the module consists of multiple design studios.

Students also undertake a Research Methods Module in the second semester that prepares them for their dissertation project. A set of generic postgraduate school-wide lectures on research paradigms, methodology and research tools is followed by Masters specific seminars in which students develop a synopsis for their dissertation’. The module is assessed by means of a review of a relevant past Masters dissertation and a synopsis proposal.

The MArch programme concludes with the Dissertation Project in which individual students work with a supervisor on projects that have developed from the work of the design studio. Students are expected to produce original, relevant and valid projects. The dissertation can take a written or design based form. In the latter case a written commentary is expected as part of the dissertation submission. Students submit their dissertation projects at the end of the summer vacation and are expected to hold an exhibition of their work in the Department or elsewhere as agreed.

Students who have qualified for the award of MA are encouraged to apply to continue to the PhD degree programme in the School if they so wish. A Postgraduate Diploma in Advanced Architectural Design can be gained by students who complete 120 credits but do not complete the full master's programme.

Teaching and learning

Studio research is complemented by a series of challenging talks by visiting academics and practitioners at every stage of the process as well as a consistent programme of individual discussions and workshops with your tutors.

You will work both in groups and individually, exploring a new kind of architecture. The methods of exploration include techniques primarily associated with the movie industry, such as the making of collages, optical composites, physical models and drawings both by hand and computer. The tutors act as guides to reveal areas of interest so that you develop an individual approach to the brief, the programme and the realisation of a project.

Teaching is heavily design-studio based, with project-based learning in a studio environment. Several parallel studies may operate, offering different methodologies but with common learning outcomes. The design studio will be complemented by a series of lectures, reviews, tutorials and site visits.

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Successful completion of this RIBA validated course provides exemption from Part 2 of the ARB prescribed Examination in Architecture. Read more
Successful completion of this RIBA validated course provides exemption from Part 2 of the ARB prescribed Examination in Architecture.

As part of the process of becoming a professionally-qualified Architect in the UK, graduates are required to complete a period of supervised ‘practical training', 12 months of which (commonly referred-to as the ‘Year Out') is normally undertaken before commencing full-time academic study at Master's level. This period of practical training constitutes Year 1 of the University of Huddersfield M.Arch course.

Therefore, students who have not previously completed a satisfactory period of practical training should join the course in Year 1. Students who have already completed a satisfactory period of practical training should join the course in Year 2.

Years 2 and Year 3 of the course are design-centred and intended to enable you to explore issues of critical regionalism and tectonic expression in relation to establishing your own theoretical position, through which you will be expected to develop a high degree of sensitivity to the context within which design work is undertaken in geographical, cultural, social and technical terms.

All design projects explore applications of sustainability and encourage a wide and plural outlook appropriate for both developed and developing countries. In this global worldview, understanding of progressive theories of design and the application of advanced construction methods co-exist with concern for the implementation of sustainable technologies, awareness of regional development issues and respect for craft-based building practices.

The rationale and definition of ‘International' both builds upon the studies undertaken as part of the Architecture (International) BA(Hons) degree awarded by the University of Huddersfield and acknowledges the reality of rapidly changing architectural practice in a fast moving, global context. Our course will aim to prepare you for new and emerging forms of practice through the development of your personal learning skills and a deep understanding of the need for flexibility, adaptability, innovation and enterprise in your career.

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The Geoscience MSc at UCL aims to provide a set of programmes that suit each student's aspirations, background and experience. The MSc offers several pathways to ensure a coherent programme of study. Read more
The Geoscience MSc at UCL aims to provide a set of programmes that suit each student's aspirations, background and experience. The MSc offers several pathways to ensure a coherent programme of study: Earth Systems Science; Palaeobiology; Earth and Planetary Physics; Environment; and Hydrogeology.

Degree information

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 two core modules (30 credits), six optional modules (90 credits) and a research dissertation (60 credits).

Core modules
-Research Methods
-Project Proposal

Optional modules
-Earth and Planetary Systems Science
-Earth and Planetary Materials
-Melting and Volcanism
-Physical Volcanology and Volcanic Hazard
-Earthquake Seismology & Earthquake Hazard
-Tectonic Geomorphology
-Palaeoceanography
-Palaeoclimatology
-Biodiversity and Macroevolutionary Patterns
-Deep Earth and Planetary Modelling
-Geodynamics and Global Tectonics
-Crustal Dynamics, Mountain Building and Basin Analysis

Relevant modules can also be chosen from:
-UCL Geography

Dissertation/report
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.

Careers

First destinations of recent graduates include:
-Neftex Petroleum Consultants Ltd: Geologist
-TWP Architects and Surveyors: Geotechnical Surveyor
-UCL Earth Sciences Rock and Ice Physics Laboratory: Research Assistant
-UCL: Research Degree, Earth Sciences

Employability
MSc Geoscience students have gone on to pursue careers in many varied areas, such as planning and surveying, governmental organisations, academic research.

Why study this degree at UCL?

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 Aon Benfield 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.

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INTERNATIONAL RESIDENCY TRIP WITH A PEDAGOGICAL OBJECTIVE. USA 2016 - http://en.grenoble-em.com/msc-ise-residency-trip-silicon-valley. Read more

Objectives

INTERNATIONAL RESIDENCY TRIP WITH A PEDAGOGICAL OBJECTIVE

USA 2016 - http://en.grenoble-em.com/msc-ise-residency-trip-silicon-valley

The aim of the MSc Innovation, Strategy and Entrepreneurship's master degree is to provide a framework and a toolkit for future managers and entrepreneurs to identify, assess and manage business opportunities in either their own companies or in existing organizations.

The program reflects the realities of the global environment and provides general management courses together with highly specialized modules in the areas of Innovation, Strategy and Entrepreneurship.

A word from the Program Director

"Innovation and Entrepreneurship are everywhere in our daily lives: smart cities, internet society, the digital economy, big data and design thinking, to name only a few. The consequences are huge: we will no longer buy – we will use! We will no longer manufacture - we will print with 3D printing!

After the Internet of People with mobile internet technology and applications, the next wave will be the Internet of Things called : IoT with news applications, new behaviors, and above all new business models. You have to discover and learn the causes and impacts of IoT in the next decade.

The MSc in Innovation, Strategy and Entrepreneurship is a convergent Master-level program designed for students who want to prepare themselves for the tectonic shift in the way we live and work. Companies and organizations, already responding to the challenges of tomorrow, project hiring graduates who have learned to navigate through the new landscape of innovation and strategy. See the opportunities got by the graduates in Employability section - http://en.grenoble-em.com/msc-innovation-strategy-and-entrepreneurship#Entreprise

If you want to broaden your theoretical knowledge while gaining practical experience in the working world, network with today's leading industry experts and tomorrow's game-changers, create your own business or help companies face tomorrow's challenges head-on, this program was designed for you! You will be challenged by an intensive, rigorous curriculum, taught by acclaimed academics and professional experts, and learn from your fellow students – a truly international group – through teamwork and intensive real-life case studies.

If you are ready to embark on this adventure and be part of this unique experience in Grenoble, heart of the French Alps and France's capital of innovation and entrepreneurship, come and join us!"

Marie-France Derderian, MSc Innovation, Strategy and Entrpreneurship Program Director

Program

In addition to its proximity to research-intensive, international companies (STMicroelectronics, Hewlett-Packard) and scientific organizations (the micro and nanotechnology innovation center GIANT Minatec (http://www.minatec.org/) - the French Commissariat à l'Energie Atomique (http://english.cea.fr/english-portal) and LETI (http://www-leti.cea.fr/en/Discover-Leti/Innovation-platforms)), this program also comes from a top quality international teaching team made up of academics and professionals, thus creating an atmosphere supportive of teaching, learning, creative thinking and research.

The program’s main objective is to provide a multidisciplinary approach to the field of Innovation, Strategy and Entrepreneurship

The program corresponds to the realities of the global management environment by offering highly-specialized courses in the fields as well as courses relating to general management and business, thus extending the intellectual understanding of Innovation, Strategy, and Entrepreneurship as a discipline.

PROGRAM ORGANIZATION

Students will be required to attend the program full-time for one academic year from September to June the following year.

Following the classroom portion of the program, students will complete a Final Management Project on a topic of their choice related to the program content. Students may complete the project while participating in an internship or full-time employment.

1) General Management and the Corporate Environments

- Finance for Managers
- Cross Cultural Communication and Negotiation
- Corporate Social Responsibility and Ethical Issues in Business
- Managing IT for Success
- Leadership, Team Building and Managerial Creativity
- Project Management
- Legal Environment of International Business
- Economics
- Accounting for Managers

2) Innovation Management

- Introduction to Innovation
- Creativity and Innovation
- Innovation Through Design
- Marketing High Tech and Innovation
- Managing Business and Innovation Networks

3) Strategy

- Strategic Management
- Microeconomics of Competitiveness (Harvard)
- Mergers, New Acquisitions and Restructuring
- Strategic Marketing and Marketing Planning

4) Entrepreneurship

- Introduction to Entrepreneurship
- New Venture Business Planning
- Entrepreneurship and Business Opportunities
- Small and Family Business
- Digital Marketing for Entrepreneurs

*Content subject to change.

At the end of the classroom portion of the program, each student will be required to complete a Final Management Project of approximately 20,000 words in length under the guidance of a GGSB professor.

In order to successfully complete the Final Management Project, students are required to address a particular research question or knowledge gap in their field of study.

This research should be business-oriented and coherent with the program’s objectives. A student may choose to write the Final Management Project on a topic grounded in his or her internship experience.

Live Business Cases

LIVE BUSINESS CASES 2015-2016 - http://en.grenoble-em.com/live-business-cases-msc-innovation

During this program, participants will have the opportunity to become real-life business developers by exploring a Live Business Case provided by companies working in partnerships with the MSc Innovation, Strategy, and Entrepreneurship program. Students will work in groups and delve deeply into their cases during the seven months from October to June under the supervision of a GGSB coach.The Live Business Cases are launched by a briefing given by the company.

LIVE BUSINESS CASES WILL COVER:

- Innovation, entrepreneurship, and management issues from an integrated, holistic perspective.
- A capstone opportunity for students to apply theoretical principles from coursework and lectures.

AT THE CONCLUSION OF THE LIVE BUSINESS CASE, STUDENTS WILL BE ABLE TO:

- Build a company analysis
- Select and apply a methodology, and make useful and efficient recommendations.
- Understand the Business Development process
- Provide critical analysis
- Make strategic decisions
- Work in a small multicultural group under time constraints
- Produce compelling written and oral presentations
- Demonstrate communication, negotiation and leadership skills

At the end of the seven-month Live Business Case, each group will produce a written report and make an oral presentation to the Jury and other groups from the program. The Jury consists of the company coach, the school coach, and the program director.

MANAGERIAL CREATIVITY : A METHOD OF SELF MANAGEMENT BY THE STUDENTS

This course/workshop is an introduction to all group assignments to be carried out all through the year. In order to help you to be efficient when working in small groups, you need to know not only your personal strengths and improvement points but also those of your class.

By discovering them during this course, you will be able to imagine together how to leverage the strengths of your class and how to manage your improvement points. You have to manage the classroom as a company, so we will appoint different representatives in charge of the main aspects of the construction of the class as a performing team: event manager, class representative, timekeeper, project leader, MSc community leader, and Alumni communication and coordination manager. These representatives and their teams will draft an action plan for the coming year.

Foreign Languages

Foreign language skills are essential in business today and the program is taught in English but provides the possibility to learn a foreign language at the same time. No prior knowledge of French is required to attend the program. Non-French speakers may study French. Native and fluent French speakers will have the possibility to choose from Spanish or Chinese. The language component is not compulsory.

Careers

The students following the MSc Innovation, Strategy and Entrepreneurship generally wish to prepare for careers as:

- R&D Managers
- Project Managers
- B to B Product Managers
- Business Engineers
- Business Developers

Or in the following fields:

- Biotech
- High Tech IT
- Start-ups

CAREERS

Graduates of the MSc Innovation, Strategy and Entrepreneurship program hold positions in a variety of sectors all over the world:

- Guillermo, Venezuela: Product Manager - Organizacion Palo Alto
- Huwein, China: Project Manager, Reverse Innovation - Biomerieux
- Amit, UK: EMEIA Product Marketing - Apple
- Alexandre, France: Business Analyst and Pricing Expert - Schneider
- Nikolay, Russia: Analyst - International Innovation Nanotechnology Center
- Nikos, Greece: Business Developer - Intralot
- Agostino, Canada: Associate - Kachan and Co.
- Mayur, Singapore: Executive Business Development - Adnai Mining
- Khodor, France: Digital Marketing Manager - Eurocopter

Admission

This program is designed for recent graduates from any background as well as managers or entrepreneurs willing to develop and manage technological and business opportunities.

ENTRY REQUIREMENTS

- Bachelor-level undergraduate degree in any subject with a good grade average
- No past work experience necessary
- Fluency in English - see test requirements below.
- The GMAT is not required for this program.

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The Ravensbourne MA Environment Design investigates spatial design in its real-virtual, and macro-micro scales. Read more
The Ravensbourne MA Environment Design investigates spatial design in its real-virtual, and macro-micro scales. Encompassing interior, architecture, cities and natural environments the programme analyzes a series of different perspectives of theory and practice from art, science, and technology towards an understanding of a cultural sustainability.

Systems - Every year the course aims to produce new research that takes forward questions inherent in Modernity. Currently focused on natural ecological systems (earthquakes, tectonic plates, deltas and shorelines), (re)contruction and war, cosmographies and cultures of outerspace, and bio-tech materials ; the course encourages you to explore your own field of research and practice.

Technologies - The Environment Design operates with a multidisciplinary team where knowledge exchange is one of the core points to focus. From: applied technologies, visual effects, interactive digital media, moving image, communication design and fashion, the programme aims to deploy students with methods and techniques from different perspectives embracing new possibilities offered by new technology and the creative processes involved in designing.

Modeling and simulation - with a hands on training in the use of the scientific instruments and computational tools, Ravensbourne offers you with full access to digital facilities for digital imaging and prototyping; where you will be able to experiment and innovate through technical, user and interaction workshops based upon strategies deployed by leading practitioners within the field.

You will be encouraged to engage with advanced practice within a global context and explore the similarities and key differences and emphases of different centres across the world and to put your learning and design solutions into context.

Here you will expand your own research and practice, by developing and managing an individual programme of enquiry and creative development in environment design culminating in the realisation of a final major project fully informed by professional and industrial contexts and multi disciplinary perspectives.

Study units

- Technology Issues
- Business and Innovation
- Research Process
- Concept and Prototyping
- Major project

The Research Process unit supports you in gaining the research skills needed for the development of your individual projects.

Three five-week workshops in the Technology Issues unit will enable you to explore interdisciplinary, cross-disciplinary and individually negotiated projects.

In the Business Innovation unit, you are helped to develop an understanding of business and innovative practices in the creative industries.

The Concept and Prototyping unit allows you to further develop the skills you have learnt; for example: using hybrid bottom-up strategies and to take a single line of inquiry, idea or theory embedded in environment design and research and develop the concept.

The Major Project represents the culmination of the your investigation and the final stage of the research strategy.

Learning

You will receive regular support from tutors, peers and subject-specific group tutorials as part of a constant critical dialogue to help create a professional and critical understanding of your individual creative process.

You will benefit from working alongside students on other MA pathways in a multi-disciplinary environment, creating opportunities to widen and expand approaches to your own research and practice giving the opportunity to adapt and adopt new and innovative methods and solutions.

The course benefits from its positioning and relationship to allied creative disciplines, such as the Applied Technologies, Fashion, and Interactive Digital Media pathways, affording opportunities for collaboration, cross-fertilisations and synergies. You are also expected to engage with the architectural design profession and to make full use of the resources and opportunities available in London.

Programme Aims

All postgraduate courses at Ravensbourne provide students with the opportunity to develop advanced skills in the conceptualisation and practical realisation of innovative creative projects in their discipline area and provide them with the entrepreneurial skills to realise their commercial potential. These courses share the following common aims:

- to develop advanced creative practitioners with the potential to originate, innovate or influence practice in their discipline area;

- to equip students with a comprehensive understanding of the core principles and technology underpinning their creative project and the theoretical frameworks within which to locate it;

- to underpin students’ creative practice with the entrepreneurial skills and business awareness necessary to turn concepts into commercially viable realities;

- to develop students’ skills in independent learning, self-reflection and research skills necessary to sustain advanced creative practice and scholarship;

- to offer a stimulating environment for postgraduate students which is both supportive and flexible in relation to their learning needs and a creative space in which to incubate their ideas.

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Theoretically, experimentally, and observationally oriented Master of Science (M.Sc.), Master of Applied Science (M.A.Sc.), and Doctor of Philosophy (Ph.D.) programs are offered in a number of key areas of geophysics. Read more

Program Overview

Theoretically, experimentally, and observationally oriented Master of Science (M.Sc.), Master of Applied Science (M.A.Sc.), and Doctor of Philosophy (Ph.D.) programs are offered in a number of key areas of geophysics. Current interests include topics in observational and theoretical glaciology; climate variability; geodynamics of the crust, mantle, and core of Earth and other planets; geological fluid mechanics; volcanic processes; origin and structure of planetary magnetic fields; reflection seismology; time-series analysis and wavelet processing; inversion methodologies with application to reflection seismology, mineral exploration, and environmental studies; computational electrodynamics; seismology with observational programs in crustal and upper mantle studies; earthquake studies focused on understanding past and current tectonic processes in Western Canada; and theoretical model studies to investigate wave propagation in laterally heterogeneous media.

Program Requirements

Geophysics students who have not completed a course in physics of the Earth at either the senior undergraduate or graduate level will be required to register for EOSC 453. The M.A.Sc. program consists of a 12-credit thesis and 18 credits of coursework. A minimum of 24 credits must be at the 500-level and above.

Quick Facts

- Degree: Master of Applied Science
- Specialization: Geophysics
- Subject: Science
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Science

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Theoretically, experimentally, and observationally oriented Master of Science (M.Sc.), Master of Applied Science (M.A.Sc.), and Doctor of Philosophy (Ph.D.) programs are offered in a number of key areas of geophysics. Read more

Program Overview

Theoretically, experimentally, and observationally oriented Master of Science (M.Sc.), Master of Applied Science (M.A.Sc.), and Doctor of Philosophy (Ph.D.) programs are offered in a number of key areas of geophysics. Current interests include topics in observational and theoretical glaciology; climate variability; geodynamics of the crust, mantle, and core of Earth and other planets; geological fluid mechanics; volcanic processes; origin and structure of planetary magnetic fields; reflection seismology; time-series analysis and wavelet processing; inversion methodologies with application to reflection seismology, mineral exploration, and environmental studies; computational electrodynamics; seismology with observational programs in crustal and upper mantle studies; earthquake studies focused on understanding past and current tectonic processes in Western Canada; and theoretical model studies to investigate wave propagation in laterally heterogeneous media.

Program Requirements

Geophysics students who have not completed a course in physics of the Earth at either the senior undergraduate or graduate level will be required to register for EOSC 453. The M.Sc. program consists of a 12-credit thesis and 18 credits of coursework. A minimum of 24 credits must be at the 500-level and above.

Quick Facts

- Degree: Master of Science
- Specialization: Geophysics
- Subject: Science
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Science

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This two year course uniquely combines a professional course; that is, an ARB/RIBA Part 2 course with a Cambridge Master’s degree in Philosophy. Read more
This two year course uniquely combines a professional course; that is, an ARB/RIBA Part 2 course with a Cambridge Master’s degree in Philosophy. It provides advanced teaching, research and practice opportunities in environmental design, including the social, political, historical, theoretical and economic aspects of architecture, cities and the global environment.

The course is a hybrid of independent research through design and a structured technical learning resource. It is designed for mature students that join the program with a distinct area of interest and provides guidelines to their scientific research, access to specialists of various fields relevant to their studies, and a matrix of deliverables that foster an informed body of work underpinned by a sophisticated set of design and presentation techniques.

The main outcome is a design thesis consisting of a detailed design proposition, supported by a written argument of up to 15,000 words. This is preceded by four essays or design exercises equivalent of 3,000 - 5,000 words. The course is closely connected with research interests within the Department’s Martin Centre for Architectural and Urban Studies. A number of the academics and researchers teach and supervise on the course.

Key benefits

- In the 2014 Research Excellent Framework, Cambridge Architecture’s research work was ranked 1st in the UK, achieving the highest proportion of combined World Leading research. 88% of the research produced by the Department was rated as World Leading or Internationally Excellent (Unit of Assessment 16: Architecture, Built Environment and Planning). This consolidates our top ranking established in the previous Research Assessment Exercise of 2008.

- Ranked 1st for Architecture by the Guardian's 2015 University Guide.

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/aharmpaud

Course detail

The programme propagates a twofold understanding of environmental design and mediates between its technical/architectural, and social/political aspects. Both trajectories are studied within a specific geographic area/region, its local set of conditions and global entanglements setting the parameters for each student’s research. Based on the area/region’s characteristics, students speculate on the expansion and adaptation of one of its specific traits and its environmental performance. The outcome of this first part of the course is an experimental adaptation of an indigenous typology, producing a speculative environmental prototype. This prototype is examined scientifically and tectonically, using real and virtual modelling alongside various other media and serves a particular demand and a specific set of site conditions. Complementing this tectonic first part, the design direction of the second part of the course is broader in scale and highly speculative in nature. It draws upon the technical findings of the initial research, but focuses on the socio-political conditions and cultural traditions shaping the area of focus in order to build a set of far-reaching proposals. Together, both parts of this research through design result in a heightened understanding of the performance/efficiency/specificity of a certain environmental issue and the environment it is embedded in.

Format

The course is structured by two terms focusing on design and detailed technical analysis (residence in Cambridge), an interim field work period (elsewhere), and a third term focusing on regional analysis/research (residence in Cambridge). These complementary term components, together with the practice placement, provide an opportunity to explore distinct interests within design practice in various settings, whilst offering a sound framework to pursue meaningful research.

Candidates are free to choose a geographic area/region of their interest that frames their study throughout the programme. Following an initial familiarization with their chosen specific locality and a global assessment of the given environment at hand, students are expected to identify a technical/architectural issue that is indigenous or characteristic to the area/region of interest and holds potential to develop.

The focus shall be primarily with issues of contemporary construction, not excluding the consideration of historical or traditional building methods that are still prevalent. More generally, candidates develop an understanding of the complexity of environments and their various aspects being inseparable from, and integrated with each other. More importantly, however, students will develop highly particular areas of expertise that they may draw on for the remainder of the course.

The programme positively encourages students to develop complex architectural proposals that meet RIBA/ARB criteria for Part II exemption and to acquire knowledge and develop and apply research skills in the following areas:

- role of environmental and socio-political issues in architecture and urban design
- The wider environmental, historical, socio-cultural and economic context related to architecture and cities
- The building science and socio-political theories associated with architecture and urban design
- Modelling and assessment of building and urban design
- Monitoring and surveying of buildings and urban environments
- Human behaviour, perception and comfort, and their role in building and urban characteristics
- Research methods and their application through academic and design methods.

In so doing, the candidates develop the following skills:

Intellectual Skills

- Reason critically and analytically
- Apply techniques and knowledge appropriately
- Identify and solve problems
- Demonstrate independence of mind

Research Skills

- Identify key knowledge gaps and research questions
- Retrieve, assess and identify information from a wide range of sources
- Plan, develop and apply research methods
- Apply key techniques and analytical skills to a new context
- Report clearly, accurately and eloquently on findings

Transferable Skills

- Communicate concepts effectively orally, visually and in writing
- Manage time and structure work
- Work effectively with others
- Work independently
- Retrieve information efficiently
- Assimilate, assess and represent existing knowledge and ideas

Assessment

The design thesis represents 60% of the overall mark and consists of a:

- written dissertation of not more than 15,000 words (20%). The word count includes footnotes but excludes the bibliography. Any appendices will require the formal permission of your Supervisor who may consult the Degree Committee. Students submit two hard copies and one electronic copy of their thesis for examination at the end of May.

- design project (40%) submitted for examination at the end of July in hard and electronic copy.

Candidates present their design thesis to examiners at an Exam Board held at the end of the second year. Students must remain in or be prepared to return to Cambridge to attend the examination.

- Four essays or equivalent exercises of 3,000 - 5,000 words, including footnotes/endnotes but excluding the bibliography, on topics approved by the Course Directors will be presented for examination. The first three of these essays are submitted during Year 1; one at the beginning of the Lent (Spring) Term and two at the beginning of the Easter (Summer) Term. The remaining essay is submitted at the beginning of the Easter (Summer) Term in Year 2.

The first essay constitutes an essay or equivalent (5%) and an oral presentation (5%), the second is a pilot study (10%) and the third is a design submission (10%). The final essay is a project realisation essay (10%).

- The course requires regular written, visual and oral presentations in the Studio. Effective communication of research findings and design concepts are an important criterion in all areas of the students' work, and assessed at all stages.

- A logbook of work and research carried out during the fieldwork period will be presented at the beginning of the Easter Term of Year 2 for assessment. The logbook is not awarded a mark.

Continuing

To continue to read for the PhD degree following the course, MPhil in Architecture & Urban Design students must achieve an overall average score of at least 70%. Continuation is also subject to Faculty approval of the proposed research proposal, and, the availability of an appropriate supervisor.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Candidates for this course (which is not considered to be a 'research track' masters course) who are considered 'Home' for fees purposes are not eligible for most funding competitions managed by the University. Home students usually fund themselves and take out a loan from the Student Loans Company (see: http://www.slc.co.uk/).

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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The MRes programme in Human Geography was introduced in 2012 and is accredited by the Economic and Social Research Council (ESRC) for subsequent doctoral research. Read more

MRes in Human Geography

• The MRes programme in Human Geography was introduced in 2012 and is accredited by the Economic and Social Research Council (ESRC) for subsequent doctoral research.
• Taught modules include both skills training and coursework.
• The programme can be tailored to the interests of individual students.
• Funding is available through a variety of channels including research councils, research contracts and University scholarships.
• Dedicated workspace and computing facilities, access to financial support for fieldwork and attendance at conferences.

Contact hours: Approximately 100 hours of lectures, seminars and workshops. Up to 40 hours one-to-one supervision over the year.
Assessment: Essays, research/lab reports, presentations, research proposal, research dissertation.

Features

* The School of Geography & Geosciences incorporates the Department of Geography & Sustainable Development and the Department of Earth & Environmental Sciences and has 40 permanent academic staff, 4 teaching fellows, 28 support staff, 20 research fellows and 49 research postgraduate students.

* The MRes in Human Geography was introduced in 2012 (Economic and Social Research Council approved for 1+3 studentships).

* Geography is now the home of the award-winning Sustainable Development postgraduate programmes.

* Wide range of expertise with particular strengths in health and population geography, Quaternary (ice age) and glacial studies, urban and historical geography, housing and labour markets, biogeography, oceanography, and environmental management and sustainable development.

* Further strengths in Earth Science research related to the coevolution of Earth and Life, development of the continental crust, and interpreting the influence of tectonic and climate change on the development of sedimentary systems from the Precambrian to the present.

* Excellent in-house laboratory, IT and field resources for teaching and research.

* Emphasis on a range of different skills producing highly literate and numerate graduates with excellent employment prospects.

* The School is a partner in the University’s Scottish Oceans Institute (SOI).

Postgraduate community

We currently have postgraduate students from across the globe. They are a vital part of the life of the School and contribute in many ways, not least in the widening and deepening of experiences brought to the learning environment. Groups and individuals within the School collaborate actively with several overseas universities, and there may be opportunities for postgraduates to spend time abroad while studying for a higher degree.

Careers

We see postgraduate study as part of your long-term career. We are here to offer advice and also support you in the development of your career, as is the University’s Careers Centre. There are opportunities for postgraduates to run tutorials, practical demonstrations and other academic work to gain experience of working in an academic context. Others gain practical experience working with companies and governmental organisations.
Recent postgraduates have obtained postdoctoral and lecturing positions in leading universities around the world, while others have jobs in environmental management, market research, health research and the oil industry.

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From the field to the lab, the knowledge you will gain in this course will help drive advancements in areas such as petroleum exploration, or mineral exploration. Read more
From the field to the lab, the knowledge you will gain in this course will help drive advancements in areas such as petroleum exploration, or mineral exploration.

This course provides advanced technical training for professionals intending to upgrade their geology qualifications or to enter a new branch of geoscience. This is achieved by attendance at lectures, seminars and group discussions, and the preparation and submission of a thesis-based research project.

Each major in this course comprises core units together with optional units in geology and related disciplines. Note that unit availability is often limited to specific semesters, which may affect the order in which you can take each unit. You will specialise in basin analysis and petroleum geology or mineral exploration and mining geology. You will complete a supervised project related to your stream, usually in collaboration with industry or government partners.

Basin Analysis and Petroleum Geology

Sedimentary basins contain a unique record of the tectonic, structural and sedimentological processes that created them. By understanding these processes, often using subsurface data sets, we can gain insights into the valuable energy resources that they contain. This stream will provide you with the technical and practical skills that you need to evaluate petroleum systems and to pursue a career in hydrocarbon exploration or production.

Mineral Exploration and Mining Geology

The mining industry is critical to our future. Without fossil fuels for power generation, silicon chips for computer chips, fertiliser for bumper harvests, metal for cars and buildings, and many raw materials for other growing industries, our current standard of living could not be maintained. This stream offers detailed knowledge of mining operations and mineral systems. You will learn about the principal types of ore deposits, the fundamentals of mineral exploration, collecting and displaying geophysical data, geochemical processes and magnetics theory, among other topics. This stream provides specialised technical and professional training for graduates in geology or closely related disciplines.

Career opportunities

This course can open up a wide range of geoscience career opportunities depending on your choice of units.

Credit for previous study

Applications for recognition of prior learning (RPL) are assessed on an individual basis.

Other notes

There is considerable flexibility in the course structure with some units available in a concentrated, short-course format. Part of the research project may be undertaken in a short, intensive period.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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This Course is Open for 2016-17 entry. Royal Holloway is one of the leading international centres for petroleum geoscience training and research. Read more
This Course is Open for 2016-17 entry.

Royal Holloway is one of the leading international centres for petroleum geoscience training and research. Our MSc Petroleum Geoscience course was established in 1985 and, with over 600 graduates from 32 countries, it is recognised around the world as one of the premier training courses for people starting out on careers in the hydrocarbon industry.

Our excellent links with the international oil industry, combined with high quality teaching and research facilities make the Royal Holloway MSc an ideal option if you are a recent graduate looking for a focused, vocational training course, or if you are an early career professional wishing to enhance your career development.

You can choose between several course modules to specialise your training in topics focussing on basin evolution or structural analysis and tectonics.

You will be joining a department where the Research Excellence Framework (REF) reported that 94% of research has been classified as 4* world leading and 3* internationally excellent in terms of originality, significance and rigour. By this criterion, Earth Sciences is 2nd place among UK universities. You will become part of a vibrant international graduate school, fully integrated into the research culture of the department.

See the website https://www.royalholloway.ac.uk/earthsciences/coursefinder/mscpetroleumgeoscience.aspx

Why choose this course?

- There is a huge demand for well qualified petroleum geoscientists. Companies worldwide are facing up to the challenge of replacing an ageing workforce with young graduates who can apply their knowledge and quickly learn from more experienced colleagues.

- We are one of the world leaders in the field of petroleum geoscience. Our MSc is recognised as a premier training course that will provide you with the practical and technical skills required to meet the challenges facing the hydrocarbon industry.

- You will develop the ability to integrate geological and geophysical data, and to apply your knowledge on a variety of scales, so that you can address a range of questions; from understanding the distribution of hydrocarbons in sedimentary basins, to quantifying the complex structural, stratigraphic and sedimentological architecture of individual reservoirs.

- We have excellent links with the international oil industry, including an Advisory Board with representatives from 14 multinational companies, which ensures that our teaching is up-to-date, relevant and will prepare you for a career in the industry.

- An MSc in Petroleum Geoscience from Royal Holloway also provides you with the geological and transferable skills to work in other Earth Science-related fields, and prepares you for further postgraduate study.

- This is a flexible course, allowing you study full-time, part-time or through distance learning. If you opt to study part-time you will have also have the option of studying through sandwich mode (complete terms in separate years).

- Field work in the UK and Spain is an important part of the programme and is fully integrated with the course units.

- The Department receives a number of studentships from industry sponsors and from the Research Council which are available to UK and EU applicants. Everyone who applies for a place on this course is automatically considered for these studentships, and no further application is required.

Department research and industry highlights

Our research follows four main themes:

- Geodynamics and Sedimentary Systems
The interaction between tectonic, volcanic and sedimentary processes to generate surface and sub-surface architectures. With a diverse range of expertise, researchers integrate geophysics, structural geology, sedimentology and modelling to improve our understanding of a wide range of geodynamic settings. Our interests range from the evolution of rift systems and passive margins to the tectonics of mountain belts and include an emphasis on sediment dynamics in all settings. Much of the research in this theme is funded by industry.

- Physics & Chemistry of Earth Processes
Quantitative characterization of Physical and Chemical processes within the Earth. This group plays a role in many research activities across the department and helps to ensure a rigorous academic approach. Research applications in geochemistry stem from development of world-class geochemical techniques in radiogenic (Sr-Nd-Pb-Hf-U-Th) and stable (C,H,O,N,S) isotopes, based on strategic partnerships with instrument manufacturers. In geophysics we have extensive expertise in both exploration geophysics and global geophysics. However, the group's main contribution extends well outside the traditional scope of geophysics and geochemistry into areas such as sedimentology, tectonics, palaeontology, oceans and atmospheres, the link between magmatism and tectonics, and the nature of the shallow mantle. In addition to making wide use of geochemical and geophysical data, we have developed a wide variety of forward and inverse modelling techniques (mathematical, numerical and laboratory-analogue).

- Global Environmental Change
Key transitions in Earth history including modern global change. A wide range of proxies and finger-printing techniques are employed to focus on issues of global change such as methane as a greenhouse gas, coastal and estuarine dynamics, modern and ancient sedimentary processes, Phanerozoic environmental change and associated biotic responses, the biogeochemistry of Archaean ecosystems and evolution of life through geologic time. In addition, we pioneer new research on the impact of ice sheet contamination and associated chemistry on climate change.

- Natural Hazards
Integrating several strands of current research within the department, this newly developing theme investigates a range of natural hazards, including intraplate earthquakes, subduction zones, volcanoes, landslides and associated tsunami, as well as environmental hazards. It utilises field studies, remote sensing data, numerical modelling, geophysical data from sites around the globe.

On completion of the course graduates will have:

- an understanding of the processes that control the structural and stratigraphic architecture of sedimentary basins

- an understanding of petroleum systems and the controls on the distribution of hydrocarbons and other fluids in sedimentary basins

- an understanding of the properties of hydrocarbon reservoirs, and the implications of this for hydrocarbon production and field development

- the ability to use seismic, well log, core and remotely sensed data to evaluate sedimentary basins, hydrocarbon prospects and hydrocarbon fields.

Assessment

The taught course units are assessed by a combination of written exams and course work. Each of the six units comprises 10% of the total assessment for the MSc course. The remaining 40% of the assessment comes from the Independent Research Project.

Employability & career opportunities

Our graduates are highly employable; 92% remain in petroleum geosciences and related fields after graduation – approximately 75% entering the industry and 20% continuing in research (mainly as PhD students).

Graduates find employment in a wide range of companies, from multinationals (such as Shell, BP, Statoil, BG, Centrica, GDF-Suez), large independents (e.g. Tullow, Hess), small independent companies (e.g. Volantis), and a wide range of consultancy companies (e.g. Fugro-Roberston, RPS, Equipoise, IHS, Midland Valley)

How to apply

Applications for entry to our campus based full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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