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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc in Environmental Dynamics and Climate Change course places particular emphasis on recent global and regional environmental and climatic change, the scientific basis and limitations of models and data collection techniques. It combines the international research strengths of staff within the Departments of Geography and Biosciences around environmental and climate dynamics (processes and mechanisms involved in stability and change), marine and ecosystem biology, and environmental management and sustainable development.

Graduates from the Environmental Dynamics and Climate Change course will have extensive knowledge of the current scientific issues underpinning climate change and environmental and ecosystem dynamics, and the practical problem solving, ICT and communication skills required for a successful career in the environmental service industry, regulating bodies or academia.

Students of the MSc Environmental Dynamics and Climate Change at Swansea will benefit from exceptional computing facilities that include fifteen dual-processor workstations for Earth Observation, a 20-node multiprocessor Beowulf cluster, and the Department’s IBM ‘Blue Ice’ supercomputer, used mainly for climate and glaciological modelling.

The aims of the Environmental Dynamics and Climate Change programme are:

To provide advanced training in understanding the scientific issues associated with environmental dynamics and climatic change,

To provide graduates entering the environmental service industry or a regulating body with the required practical problem solving, ICT and communication skills; as well as a basic knowledge of current climate policy and environmental management,

To provide graduates continuing their academic career with the required subject specific and transferable skills.

Modules

Modules of the MSc Environmental Dynamics and Climate Change ‌programme include:

Climate Change

Core Science Skills

Satellite Remote Sensing

Principles of Environmental Dynamics and Climatic Change

Please visit our website for a full description of modules for the Environmental Dynamics and Climate Change MSc.

Fieldwork

The Stackpole residential field course introduces Environmental Dynamics and Climatic Change programme students taking the “Principles of Environmental Dynamics” to some of the major themes of the module: environmental systems, sea-level change and human impact on the environment, in a congenial setting in Pembrokeshire. The environmental issues facing the Stackpole Estate are discussed and placed into a historical perspective through lectures and the analysis of long term environmental records.

Research

The Department of Geography aima to be one of the foremost international centres for research in human and physical geography, and to provide our students with excellent teaching and superb facilities in a friendly atmosphere.

The results of the Research Excellence Framework (REF) 2014 show that Geography at Swansea University is ranked joint 9th in the UK for research impact and 11th in the UK for research environment.

Research groups include:

Environmental Dynamics

Glaciology

Global Environmental Modelling and Earth Observation

Migration, Boundaries and Identity

Social Theory and Urban Space

We host a large community of postgraduate researchers studying for PhD degrees, and run one-year MRes, MSc and MA courses.

Facilities

The Department of Geography is well-resourced to support research: there are two dedicated computer laboratories: One of 24 computers in conjunction with Library and Information Services (LIS) providing general IT software and programmes dedicated to Geographic Information Systems (GIS) and Remote Sensing; One of 10 high-performance Linux workstations delivering software tools for advanced GIS and remote sensing applications.

We have specialist laboratory suites for: stable-isotope ratio analysis; tree ring analysis; extraction and identification of organic compounds; pollen extraction and analysis; rainfall simulation; tephra analysis; soil and sediment characterisation.

In addition, we have recently spent £1.8million on state-of-the-art teaching spaces, including IT facilities, laboratories and flexible teaching spaces.

Student profiles

I originally came to Swansea University to study for a BSc in Geography. Although this course covered a wide range of both human and physical topics that were all very interesting and provided a broad spectrum of skills from GIS and remote sensing to environmental modelling, my main interest was in the physical aspects. I graduated in 2007 with a 1st Class BSc (Hons) in Geography and wanted to continue my studies into the field of climate change. I decided that the MSc in Environmental Dynamics and Climate Change would be an appropriate route to take in order to pursue this field. The MSc in Environmental Dynamics and Climate Change focused on many characteristics of the global environment, like impacts on ecosystems, and how the varying processes associated with climate change can be monitored, measured and modelled. This choice of topics was complimented by the fact that the modules were run by lecturers working at the cutting-edge of global environmental change. The culmination of what I learned over the course of the year was put into practice with the dissertation, which allowed me to focus on an area of particular interest. The group of friends that I had on the course were brilliant and I will take away a lot of fond memories of our time together at Swansea. Now, after finishing the MSc in Environmental Dynamics and Climate Change I have a job working for the National Oceanography Centre in Southampton".

David Hamersley, MSc Environmental Dynamics and Climate Change



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This course provides both fundamental and applied knowledge to understand airflows, vehicle dynamics and control and methods for computational modelling. Read more

This course provides both fundamental and applied knowledge to understand airflows, vehicle dynamics and control and methods for computational modelling. It will provide you with practical experience in the measurement, analysis, modelling and simulation of airflows and aerial vehicles.

You have the choice of two specialist options which you chose once you commence your studies: Flight Dynamics or Aerodynamics. 

Who is it for?

Suitable if you have an interest in aerodynamic design, flow control, flow measurement, flight dynamics and flight control. Choose your specialist option once you commence your studies.

  • Flight Dynamics option: if you want to develop a career in flight physics and aircraft stability and control, more specifically in the fields of flight control system design, flight simulation and flight testing.
  • Aerodynamics option: if you want to develop a career in flight physics and specifically in the fields of flow simulation, flow measurement and flow control.

Why this course?

The aerospace industry in the UK is the largest in the world, outside of the USA. Aerodynamics and flight dynamics will remain a key element in the development of future aircraft and in reducing civil transport environmental issues, making significant contributions to the next generation of aircraft configurations. 

In the military arena, aerodynamic modelling and flight dynamics play an important role in the design and development of combat aircraft and unmanned air vehicles (UAVs). The continuing search for aerodynamic refinement and performance optimisation for the next generation of aircraft and surface vehicles creates the need for specialist knowledge of fluid flow behaviour.

Cranfield University has been at the forefront of postgraduate education in aerospace engineering since 1946. The MSc in Aerospace Dynamics stems from the programme in Aerodynamics which was one of the first masters' courses offered by Cranfield and is an important part of our heritage. The integration of aerodynamics with flight dynamics reflects the long-term link with the aircraft flight test activity established by Cranfield. 

Graduates of this course are eligible to join the Cranfield College of Aeronautics Alumni Association (CCAAA), an active community which holds a number of networking and social events throughout the year.

Informed by Industry

The Industrial Advisory Panel, comprising senior industry professionals, provides input into the curriculum in order to improve the employment prospects of our graduates. Panel members include:

  • Adrian Gaylord, Jaguar Land Rover (JLR)
  • Trevor Birch, Defence, Science and Technology Laboratory (DSTL)
  • Chris Fielding, BAE Systems
  • Anastassios Kokkalis, Voith
  • Stephen Rolson, European Aeronautic Defence and Space Company (EADS)
  • Clyde Warsop, BAE Systems

Accreditation

The MSc in Aerospace Dynamics is accredited by the Royal Aeronautical Society (RAeS) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Course details

This course consists of optional taught modules, an individual research project and a group flight test project.

The group flight test project consists of two compulsory modules that offer an initial introduction to aerospace dynamics and provide grounding for the group flight test. Choice is a key feature of this course, with specialist options in either aerodynamics or flight dynamics. Choose your option once you have commenced your studies.

Group project

All students undertake the Group Flight Test Report during October to December. This involves a series of flight tests in the The National Flying Laboratory Centre (NFLC) Jetstream which are undertaken, reported and presented as a group exercise. This is an important part of the course as it enables candidates to experience the application of specialist skills within a real plane to a collaborative report/presentation.

Individual project

The individual research project allows you to delve deeper into an area of specific interest. It is very common for industrial partners to put forward real world problems or areas of development as potential research project topics. The project is carried out under the guidance of an academic staff member who acts as your supervisor. The individual research project component takes place between April and August.

If agreed with the course director, part-time students have the opportunity to undertake projects in collaboration with their place of work, which would be supported by academic supervision.

Previous Individual Research Projects covered:

Aerodynamics option

  • Spiked body instabilities at supersonic speeds
  • Aerodynamic loads on a race car wing in a vortex wake
  • Lateral/directional stability of a tailless aircraft.
  • Aerodynamic drag penalties due to runback ice
  • Automotive flow control using fluidic sheets
  • Aerodynamic design and optimisation of a blended wing body aircraft.

Flight Dynamics option

  • Flight dynamic modelling of large amplitude rotorcraft dynamics
  • Decision making for autonomous flight in icing conditions
  • Comparative assessment of trajectory planning methods for UAVs
  • Machine vision and scientific imaging for autonomous rotorcraft
  • Linear parameter varying control of a quadrotor vehicle
  • Gust load alleviation system for large flexible civil transport.

Assessment

Taught modules 40%, Group project 20% (dissertation for part-time students), Individual project 40%

Your career

Industry driven research makes our graduates some of the most desirable in the world for recruitment in a wide range of career paths within the aerospace and military sector. A successful graduate should be able to integrate immediately into an industrial or research environment and make an immediate contribution to the group without further training. Increasingly, these skills are in demand in other areas including automotive, environmental, energy and medicine. Recent graduates have found positions in the aerospace, automotive and related sectors. 

Employers include:

  • Airbus
  • BAE Systems
  • Onera
  • Deutsches Zentrum für Luft- und Raumfahrt (DLR)
  • Defence, Science and Technology Laboratory (DSTL)
  • QinetiQ
  • Rolls-Royce plc
  • Snecma
  • Thales
  • Selex ES
  • MBDA
  • Jaguar Land Rover
  • Tata
  • Science Applications International Corporation (SAIC)
  • Triumph Motorcycles.

A significant number of graduates go on to do research and higher degrees.



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STUDY PROCESSES BELOW THE EARTH'S SURFACE. In the Master in Earth Structure and Dynamics programme, you will explore the composition, structure, and evolution of the Earth’s crust, mantle, and core. Read more

STUDY PROCESSES BELOW THE EARTH'S SURFACE

In the Master in Earth Structure and Dynamics programme, 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.

Specialise in any aspect of Solid Earth Science

The programme combines geology, geophysics, mathematics, physics, chemistry and field studies to address how the solid Earth works. It allows you to specialise 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.

Core areas of teaching and research

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, sedimentary basins formation and evolution, 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 induced seismicity and geo-resources.

In the programme, you will address questions such as:

  • How do mountain belts and sedimentary basins form? 
  • How can we image the internal structure of the crust and mantle? 
  • How does plate tectonics really work and how can we model it? 
  • What controls volcanic eruptions and earthquakes? 
  • Can CO2 be safely stored in reservoir rocks in the Earth’s crust? 

You can choose one of three specialisation tracks based on your interests in the field:

  • Earth Materials
  • Deformation and metamorphic and igneous processes operating in the crust and upper mantle
  • Physics of the Deep Earth and Planets
  • An in-depth geophysical approach to understand the deep interior of the Earth and other planets
  • Basins, Orogens, and the Crust-Lithosphere System
  • Understand the processes at the scale of the crust and lithosphere such as the formation and evolution of sedimentary basins or mountain chains. This is a combined track for a hybrid Geology-Geophysics (Solid Earth specialist) profile.  

PROGRAMME OBJECTIVE

  • The Earth Structure and Dynamics programme focuses on all aspects of the solid Earth as a key component of system Earth – and therefore of Earth system science. This encompasses the structure, dynamics, and evolution of the solid Earth over the full range of spatial and temporal scales as well as the role of solid Earth structure and processes in societally relevant issues such as energy, geo-resources, and geohazards. Examples include understanding the physics of tectonically – or human – induced earthquakes, volcanic hazards or petroleum, mineral, sustainable or unconventional resources. Knowledge of these aspects has direct relevance for professional profiles and future job opportunities.


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The global market for aerial, ground, and marine Autonomous Vehicles has grown rapidly due to the advent of drones and driverless cars. Read more

The global market for aerial, ground, and marine Autonomous Vehicles has grown rapidly due to the advent of drones and driverless cars. Defence, Aerospace, Automotive, and Marine Industries seek graduates conversant in key aspects of Autonomy including: dynamics & control, guidance & navigation, decision making, sensor fusion, data & information fusion, communication & and networking. These durable and transferrable skills are the bedrock of this unique MSc course whose content has been based on advice from the Industrial Advisory Board, comprising the relevant Industrial representatives from Big Primes to Small and Medium-sized Enterprises.

Who is it for?

The Autonomous Vehicle Dynamics and Control MSc is a unique course for graduates in engineering, physics, or mathematics wishing to acquire durable and transferrable skills in Autonomous Vehicles to pursue career opportunities in Defence, Aerospace, Automotive, and Marine Industries.

Why this course?

We are unique in that we offer a combination of subjects much sought after in the Autonomous Vehicle Industry and not covered in a single MSc course anywhere else. Successful graduates of our MSc course become conversant in key aspects of Autonomy which advantageously differentiates them in today's competitive employment market

The Autonomous Vehicle Dynamics and Control MSc course begins with the fundamentals of autonomous vehicle dynamics and control, and progresses to the core subjects of guidance & navigation, decision making, sensor fusion, data & information fusion, communication & and networking. A choice of optional modules allows individual tailoring of these subjects to specialise in appropriate subject areas.

The taught part of the course is followed by Individual Research Projects (IRPs) and the topic of each of the IRPs is provided by one of the member of the Industrial Advisory Board. The real-world relevance of the IRP topics is another unique feature of our MSc course and can be another effective differentiator in the job market.

This course is also available on a part-time basis enabling you to combine studying with full-time employment. This is enhanced by a three-stage programme from a Postgraduate Certificate, to a Postgraduate Diploma through to an MSc.

Informed by Industry

The relevant, competent and pro-active Industrial Advisory Board includes:

  • BAE Systems
  • Airbus Defence & Space
  • Thales UK
  • Leonardo
  • Raytheon UK
  • Lockheed Martin UK
  • Boeing UK (Phantom Works)
  • UTC Aerospace Systems
  • QinetiQ
  • Spirent Communications
  • Tekever
  • MASS Consultants
  • Plextek
  • Stirling Dynamics
  • RaceLogic

who not only continuously advise on updating the course content but also provide topics for Individual Research Projects (IRPs). After the final oral exams in early September, all students present posters summarising their IRPs to the whole Industrial Advisory Board thus exposing their work to seasoned professionals and potential employers. The IRPs benefit from our own lab where real autonomous vehicles can be designed and tested.

Accreditation

Accreditation is being sought for the MSc in Autonomous Vehicle Dynamics and Control from the Royal Aeronautical Society, the Institution of Mechanical Engineers (IMechE) and the Institution of Engineering & Technology (IET) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Course details

The taught course element consists of lectures in three areas: dynamics, control systems, and autonomous systems and technology. The MSc consists of two equally weighted components, taught modules and an individual research project.

Individual project

Our industry partners sponsor individual research projects allowing you to choose a topic that is commercially relevant and current. Topics are chosen during the first teaching period in October and you begin work during the second half of the MSc course (May - August). The project allows you to delve deeper into an area of specific interest, taking the theory from the taught modules and joining it with practical experience.

Projects encompass various aspects of operations, not only concerned with design but including payloads, civil applications, system, sensors and other feasibility studies industry wishes to explore.

For the duration of the project, each student is assigned both a university and industry supervisor. In recent years, students have been based at sponsor companies for sections of their research and have been given access to company software/facilities.

During the thesis project all students give regular presentations to the course team and class, which provides an opportunity to improve your presentation skills and learn more about the broad range of industry sponsored projects.

Previous projects have included:

Assessment

Taught modules 50%, Individual research project 50%. Please note: Modules for this course are under review, to incorporate the latest advice from the Industrial Advisory Board.

Your career

The industry-led education makes Cranfield graduates some of the most desirable all over the world for recruitment by companies competing in the autonomous vehicle market including:

  • BAE Systems
  • Defence Science and Technology Laboratory
  • MBDA
  • Other companies from our Industrial Advisory Board.

Graduates from this course will be equipped with the advanced skills which could be applied to the security, defence, marine, environmental and aerospace industries. This approach offers you a wide range of career choices as an autonomous systems engineer, design engineer or in an operations role, at graduation and in the future. Others decide to continue their education through PhD studies available within Cranfield University or elsewhere.



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Learn to effectively make strategic decisions in an ever-changing economy. Read more

Learn to effectively make strategic decisions in an ever-changing economy

Are you fascinated by the dynamics of modern economies where entire new industries are being created and existing ones constantly require renewal or are made obsolete? Do you want to understand the role for such industry dynamics of companies such as Google, Tesla and Uber? Do you want to research and stimulate these dynamic processes and contribute to policy formulation? Do you want to be part of business start-ups or help companies anticipate, thrive, and innovate? The Industrial Dynamics and Strategy programme provides you with a powerful set of skills, tools and models to make smart strategic decisions and become a true change maker.

Through practical application and rigorous study of theories you will develop solid analytical and research skills and address questions like:

  • Why should firms invest in innovation?
  • Why do competing firms co-locate in clusters?
  • Why do airlines use differential pricing?
  • Why do firms locate in conflict countries?
  • What determines market entry of new firms?
  • What is the role of networks in different stages of industry evolution?
  • How does the industry’s knowledge base change during the evolution of an industry?
  • How do customers provide incentives for innovation?

In addition, the programme enables you to quantitatively and empirically analyse real-life problems in the field and interpret and present findings in a clear and concise way.

Erasmus School of Economics because

This programme is predominantly built on the idea that entrepreneurship and innovation are what make people, firms and industries successful. Here, you will focus on phenomena that pose constant challenges and opportunities, phenomena like new technologies, shifting consumer preferences, economic crises and innovation. In short: a unique programme in the heart of society.

Careers 

The Industrial Dynamics and Strategy specialisation gives you the academic and practical preparation to work in a variety of sectors and positions. Do you pursue a career at a consulting company, an international company or a smaller, specialised firm? Or do you want to build your own company? In any case, you will be well equipped for any task at hand. Careers include:

  • Consultant
  • Business analyst
  • Government official
  • Self-employed/business owner
  • (Applied) Researcher
  • Policy maker

"Here, you acquire the knowledge, skills and tools that optimise entrepreneurial and strategic decisions"

Are you an original thinker with proactive qualities? Do economic dynamics, change and innovation excite you? Does the combination of being right where the action is and the quantitative approach towards analysing dynamics appeal to you? Then meet your future fellow-students here.

Download the brochure here.



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This course has been designed to reflect the wide applications of Computational Fluid Dynamics. Read more

This course has been designed to reflect the wide applications of Computational Fluid Dynamics. You will learn to understand, write and apply CFD methods across a wide broad range of fields, from aerospace, turbomachinery, multi-phase flow and heat transfer, to microflows, environmental flows and fluid-structure interaction problems. Tailor your course by choosing from a range of specialist modules covering application-specific methods and techniques.

Who is it for?

Designed to meet the education needs of graduates and professional engineers who are looking to kick-start an industrial or research career in the rapidly growing field of Computational Fluid Dynamics. This course bridges the gap between the introductory level of undergraduate courses and the applied expertise acquired by engineers using CFD in industry. You will gain the knowledge and appreciation of CFD methods necessary for a strong foundation to a career in this exciting engineering discipline.

Why this course?

The MSc in Computational Fluid Dynamics provides a solid background so that you will be able to apply CFD methods as a tool for design, analysis and engineering applications. With a strong emphasis on understanding and application of the underlying methods, enthusiastic students will be able to write their own CFD codes during the course.

Sharing some modules with the MSc in Aerospace Dynamics gives you the opportunity to interact with students from other disciplines. In recent years, our students have been had the opportunity for work-based placements at the Aircraft Research Association (ARA), European Space Agency (ESA), Ricardo and DAF Trucks.

Informed by Industry

Our strategic links with industry ensures that all of the materials taught on the course are relevant, timely and meet the needs of organisations competing within the computational analysis sector. This industry led education makes Cranfield graduates some of the most desirable for companies to recruit.

The Industrial Advisory Panel is comprised of senior industry professionals provides input into the curriculum in order to improve the employment prospects of our graduates.

Accreditation

The MSc in Computational Fluid Dynamics will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng (Hons) accredited for CEng will be able to show that they have satisfied the educational base for CEng registration.

Course details

The taught modules are delivered from October to April via a combination of structured lectures, and computer based labs.

The core part of the course consists of modules which are considered to represent the necessary foundation subject material. The course is designed to reflect the broad range of CFD applications by providing a range of optional modules to address specific application areas. Students on the part-time programme will complete all of the compulsory modules based on a flexible schedule that will be agreed with the course director.

Individual project

The taught element of the course finishes in May, at which point you will have an excellent understanding of CFD methods and applications. From May to September you will work full-time on your individual research project. The research project gives you the opportunity to produce a detailed piece of work either in close collaboration with industry, or on a particular topic which you are passionate about.

Recent Individual Research Projects include:

  • A Study of A-pillar Vortices on the Jaguar XF Using Transitional Turbulence Models
  • Aerodynamic Analysis and Optimisation of the Aegis UAV
  • Performance Analysis of Hypervapotron Inlet Region
  • Phase Separation of Oil-water Flow in a Pipe Bend
  • CFD Simulation of a Novel CO Sensor
  • Shock Wave Interaction with Biological Membranes for Drug Therapy
  • High Resolution Implicit Large Eddy Simulation of Ariane 5 Aerodynamics.

Assessment

Taught modules 50%, Individual research project 50%

Your career

Strategic industrial links ensure that the course meets the needs of the organisations competing within the computational sector therefore making our graduates some of the most desirable in the world for companies to recruit. An increasing demand for CFD specialists with in depth technical knowledge and practical skills within a wide range of sectors has seen our graduates employed by leading companies including:

  • Alstom
  • BAE Systems
  • Cummins Turbo Technology
  • BHR
  • ESTEC
  • Hindustan Aeronautics Ltd
  • NUMECA
  • ONERA
  • Rio Tinto
  • Rolls-Royce plc
  • Siemens.

Roughly one third of our graduates go on to register for PhD degrees, many on the basis of their MSc individual research project. Thesis topics are often supplied by individual companies on in-company problems with a view to employment after graduation - an approach that is being actively encouraged by a growing number of industries.




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This course provides a thorough grounding in this exciting field and is aimed at students with interests in experiment, theory, or both. Read more

This course provides a thorough grounding in this exciting field and is aimed at students with interests in experiment, theory, or both. It draws upon the research strengths at the College in a wide range of topics in controlled quantum dynamics.

Recent theoretical and experimental advances mean that we are now able to apply an extraordinary degree of control over individual quantum systems and to prepare and manipulate groups of interacting quantum systems deterministically.

Bringing these techniques to bear upon both fundamental physics and a new swathe of technologies dependent on strange quantum phenomena defines the emerging field of controlled quantum dynamics.

The Department of Physics is leading an interdisciplinary Centre for Doctoral Training (CDT) on Controlled Quantum Dynamics offering a four-year PhD, the first year of which leads to an MRes. Self-funded students may take the MRes by itself as a 12-month full-time course.

A feature of the course is its focus on both theory and experiment, equipping you to enter either avenue of research.

Careers

With strong links to industry, other leading academic institutions, and government labs in the UK and overseas, there are plenty of opportunities to engage with external organisations, including collaborative research projects.

Funding

Fully funded four-year studentships are available for UK and EU students ordinarily residents in the UK for at least three years prior to the start of the grant. This funding is for students intending to stay on for the four-year PhD only.

Further information

For full information on this course, including how to apply, see: http://www.imperial.ac.uk/study/pg/physics/controlled-quantum-dynamics/

If you have any enquiries you can contact our team at:



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc by Research Environmental Dynamics enables students to pursue a one year individual programme of research. TheEnvironmental Dynamics programme would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree.

You will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Swansea is a research-led University and the Department makes a significant contribution, meaning that as a Postgraduate Geography Student you will benefit from the knowledge and skills of internationally renowned academics.

In the latest Research Assessment Exercise, 95% of Geography research at Swansea was judged to be of international quality, and 60% was regarded as World-leading or internationally excellent.

Facilities

As a student of the Environmental Dynamics programme you will have access to:

Computer laboratory with 24 computers providing general IT software and programmes dedicated to Geographic Information Systems (GIS) and Remote Sensing Computer laboratory with 10 high-performance Linux workstations delivering software tools for advanced GIS and remote sensing applications

Specialist laboratory suites for stable isotope ratio analysis; tree ring analysis; extraction and identification of organic compounds; pollen extraction and analysis; rainfall simulation; tephra analysis; soil and sediment characterisation

In addition, the computing facilities include 15 dual-processor workstations for Earth Observation, a 20-node multiprocessor Beowulf cluster, and the Department’s IBM ‘Blue Ice’ Supercomputer, used mainly for climate and glaciological modelling.

Research

All academic staff in Geography are active researchers and the department has a thriving research culture and a strong postgraduate community.

The results of the Research Excellence Framework (REF) 2014 show that Geography at Swansea University is ranked joint 9th in the UK for research impact and 11th in the UK for research environment.

Research groups include:

Environmental Dynamics

Glaciology

Global Environmental Modelling and Earth Observation

Migration, Boundaries and Identity

Social Theory and Urban Space



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This is a truly multidisciplinary Master's degree providing formal training in fluid dynamics and its many applications. Read more

This is a truly multidisciplinary Master's degree providing formal training in fluid dynamics and its many applications.

Fluid Dynamics is important to numerous industrial, biological, biomedical and geophysical applications, and this course will provide students with formal training that broadens and deepens their understanding of the discipline, as well as provide a wide range of theoretical and practical tools, and transferable skills that are relevant in a variety of settings including in industry and academia.

The course can be taken as a one-year standalone MRes, or as part of the four-year MRes/PhD programme led by the Centre for Doctoral Training (CDT) in Fluid Dynamics across Scales. For more information see: http://www.imperial.ac.uk/fluids-cdt/

The MRes begins with in-depth training in fluid dynamics through taught modules, which make up 50% of the assessment for this course. The remaining 50% comprises of an extensive research project.

Further information

For full information on this course, including how to apply, see: http://www.imperial.ac.uk/study/pg/aeronautics/fluid-dynamics-across-scales-mres/

If you have any enquiries you can contact our team at:



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About the course. Learn how to deal with structural dynamics problems in areas of earthquake engineering, civil vibration engineering, and blast and impact. Read more

About the course

Learn how to deal with structural dynamics problems in areas of earthquake engineering, civil vibration engineering, and blast and impact.

Our teaching is based on the expertise of The Concrete and Earthquake Engineering Research Group, known internationally for its applied approach to civil engineering dynamics.

About us

We are one of the largest and most active civil engineering departments in the UK. All our masters courses are informed by our own world-leading research and industry needs. The 2014 Research Excellence Framework (REF) puts us in the UK top four.

Our structures-based courses are accredited by The Institution of Civil Engineers, Institution of Structural Engineers, Chartered Institution of Highways and Transportation, and Institute of Highway Engineers as satisfying part 2 academic base requirements for a Chartered Engineer under UK-SPEC.

Your career

Our graduates work for top UK and international consultancies, contractors, regulators, universities and other private and public sector organisations.

Many of them join engineering consultancies, in roles such as Structural Engineer, Building Services Engineer and Sustainability Consultant. Some join architecture practices. Employers include Arup, Buro Happold, Capita Symonds, Roger Preston and Partners, Cundall and Foster and Partners.

Specialist facilities

Our laboratories are equipped to a very high standard:

Large-scale tri-axial apparatus for stress path and cyclic load testing; flexible walled tri-axial calibration chambers; optical microscopy, digital camera and measurement software; model pile testing and durability testing facilities. We have recently established the Centre for Energy and Infrastructure Ground Research that is home to our world leading 4m diameter beam centrifuge and complementary £1m teaching facility.

Core modules

  • Linear Systems and Structural Analysis
  • Structural Dynamics and Applications to
  • Earthquake Engineering and Vibration
  • Computational Structural Analysis
  • Structural Design
  • Design of Earthquake Resistant Structures
  • Advanced Simulation of High Strain Rate Dynamics
  • Civil Engineering Research Proposal

Examples of optional modules

  • Advanced Concrete Design
  • Sustainable Concrete Technology
  • Structural Design and Fire Resistance of Medium Rise Steel Framed Buildings
  • Innovations in Structural Concrete
  • Blast and Impact Effects on Structures
  • Geotechnical Design
  • Fatigue and Fracture
  • Risk and Extreme Events

Teaching and assessment

Lectures, design tutorials, computational tutorials, lab work and industrial seminars.

All courses use lectures by academic staff and industrial partners, laboratory work, site visits, design projects and dissertation. Assessment is by formal examinations, coursework assignments and a dissertation with oral examination.

September–June: taught modules and preparation for your dissertation.

June–August: complete your dissertation.

Your research dissertation gives you the opportunity to work with an academic on a piece of research in a subdiscipline. We’ll give you training in research skills.



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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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River basins are of fundamental importance to the world’s population. Research training in water dynamics and management are demanded by both industry and academia. Read more

River basins are of fundamental importance to the world’s population. Research training in water dynamics and management are demanded by both industry and academia. The University has a world-class reputation for water-related research and GIS development in an environmental context. This programme builds on that success.

Core components are river basin hydrology and basic environmental GIS. Students choosing a River Basins (RB) pathway gain advanced knowledge and skills in channel hydraulics and sediment transport, river ecology and environmental assessment. Students on a Geographical Information Systems (GIS) pathway gain advanced knowledge and skills in GIS for environment, GIS programming and digital image analysis and remote sensing.

This highly practical course advocates learning by doing and is assessed 100% by coursework. We host guest lecturers from business, industry and academia, visit work places and conduct a series of field-, laboratory- and PC-based practicals. You also have the chance to take a work placement module.

More information

The programme offers a detailed understanding of the principles of water resource management and an appreciation of the institutional and legal frameworks impacting on river basin management. You learn to formulate important research questions and design methodological approaches to answer them; and to develop quantitative analyses skills.

This programme is available part time, allowing you to combine study with other commitments. You can work to fund your studies, or gain a new qualification without giving up an existing job. We aim to be flexible in helping you to put together a part-time course structure that meets your academic goals while recognising the constraints on your study time.

The programme manager is Dr Paul Kay.

You can also study this subject at Postgraduate Diploma level.

We offer some of the modules on this programme as standalone Continuing Professional Development modules.

Accreditation

Our River Basin Dynamics and Management with GIS programme is accredited by Chartered Institute of Water and Environmental Management (CIWEM).



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The contemporary organisation is characterised by complexity and change. Read more
The contemporary organisation is characterised by complexity and change. Our unique MA in Management and Organisational Dynamics, offered jointly by the Essex Business School and the Centre for Psychoanalytic Studies, aims to equip you with powerful tools to support your development as a future leader, manager, organisational consultant, researcher or executive coach.

Drawing upon both critical management theory and the developing field of systems-psychodynamics, this innovative course will be of particular interest to anyone who wishes to understand the complex processes that impact on change in organisations.

The integrated approach provides a deep analysis of the way organisations function, the nature of leadership and the way organisational structure and dynamics contribute to the operation of groups and systems.

Learning is through taught and experiential elements, providing a platform for both further academic study and creative intervention in organisations. There are five taught modules, including an organisational observation and a residential group relations event. Those who are new to psychoanalytic approaches are required to attend a short pre-sessional course on Freud.

The course is offered one year full-time, two years part-time or modular (up to five years). Teaching takes place on Wednesday during term-time in the first year and Tuesday in the second year for part-time students. Full-time students attend both days for one academic year.

This course can be studied up to a PGDip level - for more information, please view this web-page: http://www.essex.ac.uk/courses/details.aspx?mastercourse=PG00671&subgroup=2

Our expert staff

Our Centre for Psychoanalytic Studies is internationally recognised as one of the leading centres for work that focuses on the role of the unconscious mind in mental health, as well as in culture and society generally. Our research and teaching is deeply grounded in knowledge deriving from clinical practice, to which our highest standards of academic thinking are then applied.

The Centre consistently achieves top ten rankings in the UK's research assessments, most recently in the 2014 Research Excellence Framework. Being located within the UK’s leading university of the study of social sciences means you are surrounded by strong departments that fully support and enhance our work. This allows you to gain the opportunity to work with and be taught by senior clinicians and world-class scholars in their fields.

Specialist facilities

If you are studying within our Centre for Psychoanalytic Studies, you will have access to our extensive facilities to aid your learning and research. In particular, our Albert Sloman Library is well stocked with books, journals, electronic resources and major archives relevant to our work and, in addition, we have our own library of specialist books and journals.

We hold free evening Open Seminars on topics relevant to psychoanalysis which are open to students, staff and members of the public.

Your future

Our graduates go on to a number of different destinations, including further study and training in psychoanalysis, Jungian analysis, or psychoanalytic psychotherapy.

Many of our students are already professionals, clinical and non-clinical, so return to their existing fields, either in jobs or further training, and use study with us to deepen their understanding of their work.

Example structure

-MA Dissertation
-Management and Organisational Behaviour
-Management Psychology
-Psycho Analytic Theory
-Joint Seminar in Psychoanalysis and Management
-Psychoanalysis of Groups and Organisations

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This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. Read more

This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules, including 'Applications of CFD', and 'Advances in Ship Resistance and Propulsion', are particularly relevant to the Maritime Computational Fluid Dynamics theme of this course.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course.

The masters course in Maritime Engineering Science / Maritime Computational Fluid Dynamics concentrates on the computational techniques and their applications to the predictions of fluid behaviour and its interactions with structure, core to the engineering in the maritime environment.

Overview

The year will be divided into two semesters. Your compulsory modules will give you an in-depth understanding of CFD methodology, data interpretation and practical applications of numerical procedures. You will also study Application of CFD and advances in ship resistance and propulsion.

In each semester, you will have the chance to broaden your maritime engineering education by selecting option modules including flow control, offshore engineering analysis and design search and optimisation.

The last four months will be devoted to practical research. You will complete a final research project and take advantage of our world-class high performance computing facility for your CFD work as well as CFD test facilities to perform your experimental work.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



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This course will provide the knowledge and skills required of a professional engineer to design advanced control systems for complex dynamical systems. Read more
This course will provide the knowledge and skills required of a professional engineer to design advanced control systems for complex dynamical systems. The course includes advanced modules on dynamical systems and control theory and also covers the latest techniques for implementing these technologies on a range of high-performance applications.

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