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This course focuses on the physical processes that generate natural hazards through an advanced understanding of geological and environmental processes. Read more

Why take this course?

This course focuses on the physical processes that generate natural hazards through an advanced understanding of geological and environmental processes.

You will be fully trained by internationally recognised experts in hazard identification, terrain evaluation techniques as well as hazard modelling and risk assessment techniques. Providing you with the essential skills to monitor, warn and help control the consequences of natural hazards.

What opportunities might it lead to?

This course is accredited by the Geological Society of London. It offers advanced professional and scientific training providing an accelerated route for you to attain Chartered Status, such as Chartered Geologist (CGeol) and Chartered Scientist (CSci) on graduation.

Here are some routes our graduates have pursued:

Aid organisations
Environmental organisations
Offshore work
Civil sector roles
Mining
Insurance companies

Module Details

You can opt to take this course in full-time or part-time mode.

The course is divided into two parts. The first part comprises the lecture, workshop, practical and field work elements of the course, followed by a five-month independent research project. The course is a mixture of taught units and research project covering topics including site investigation, hazard modelling and mapping, soil mechanics and rock mechanics, contaminated land, flooding and slope stability.

Here are the units you will study:

Natural Hazard Processes: The topic of this unit forms the backbone of the course and give you an advanced knowledge of a broad range of geological and environmental hazards, including floods, landslides, collapsible ground, volcanoes, earthquakes, tsunamis, hydro-meteorological and anthropogenic hazards. External speakers are used to provide insights and expertise from an industry, regulatory and research perspective.

Numerical Hazard Modelling and Simulation: This forms an important part of the course, whereby you are trained in the application of computer models to the simulation of a range of geological and environmental hazards. You will develop skills in computer programming languages and use them to develop numerical models that are then used to simulate different natural hazard scenarios.

Catastrophe Modelling: On this unit you will cover the application of natural hazard modelling to better understand the insurance sector exposure to a range of geological and environmental hazards. It includes external speakers and sessions on the application of models for this type of catastrophe modelling.

Volcanology and Seismology: You will gain an in-depth knowledge of the nature of volcanism and associated hazards and seismology, associated seismo-tectonics and earthquake hazards. This unit is underpinned by a residential field course in the Mediterranean region that examines the field expression of volcanic, seismic and other natural hazards.

Flooding and Hydrological Hazards: These are a significant global problem that affect urban environments, one that is likely to increase with climate change. This unit will give you an in-depth background to these hazards and opportunities to simulate flooding in order to model the flood hazard and calculate the risk.

Hazard and Risk Assessment: This unit gives you the chance to study the techniques that are employed once a hazard has been identified and its likely impact needs to be measured. You will have advanced training in the application of qualitative and quantitative approaches to hazard and risk assessment and their use in the study of different natural hazards.

Field Reconnaissance and Geomorphological Mapping: These techniques are integral to the course and an essential skill for any graduate wishing to work in this area of natural hazard assessment. On this unit you will have fieldwork training in hazard recognition using techniques such as geomorphological mapping and walk-over surveys, combined with interpretation of remote sensing and aerial photography imagery.

Spatial Analysis and Remote Sensing: You will learn how to acquire and interpret aerial photography and satellite imagery, and the integration and analysis of spatial datasets using GIS – all key tools for hazard specialists.

Geo-mechanical Behaviour of Earth Materials: You will train in geotechnical testing and description of soils and rocks to the British and international standards used by industry.

Landslides and Slope Instability: This unit will give you an advanced understanding of landslide systems, types of slides in soils and rocks and methods for identification and numerical analysis.

Impacts and Remediation of Natural Hazards: You will cover a growing area of study, including the impact of hazardous events on society and the environment, and potential mitigation and remediation methods that can be employed.

Independent Research Project: This provides you with an opportunity to undertake an original piece of research to academic or industrial standards, typically in collaboration with research staff in the department or external industry partners. In addition to submission of a thesis report, you also present the results of your project at the annual postgraduate conference held at the end of September.

Programme Assessment

The course provides a balanced structure of lectures, seminars, tutorials and workshops. You will learn through hands-on practical sessions designed to give you the skills in laboratory, computer and field techniques. The course also includes extensive field work designed to provide field mapping and data collection skills.

Assessment is varied, aimed at developing skills relevant to a range of working environments. Here’s how we assess your work:

Poster and oral presentations
Project reports
Literature reviews
Lab reports
Essays

Student Destinations

This course provides vocational skills designed to enable you to enter this specialist environmental field. These skills include field mapping, report writing, meeting deadlines, team working, presentation skills, advanced data modelling and communication.

You will be fully equipped to gain employment in the insurance industry, government agencies and specialist geoscience companies, all of which are tasked with identifying and dealing with natural hazards. Previous destinations of our graduates have included major re-insurance companies, geological and geotechnical consultancies, local government and government agencies.

It also has strong research and analytical components, ideal if you wish to pursue further research to PhD level.

We aim to provide you with as much support as possible in finding employment through close industrial contacts, careers events, recruitment fairs and individual advice.

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This course focuses on both the scientific knowledge of hazards and modern strategies of emergency planning. Its interdisciplinary approach combines traditional classroom and field-based teaching and learning techniques with modern ICT-based learning support. Read more
This course focuses on both the scientific knowledge of hazards and modern strategies of emergency planning. Its interdisciplinary approach combines traditional classroom and field-based teaching and learning techniques with modern ICT-based learning support. A strong emphasis is placed on research-led teaching, student-centred learning and team-based activities, all of which develop the necessary skills required by practitioners in the field of hazard and disaster management.

-This course is ideal if you want to start or advance a career in hazard or risk management, environmental monitoring, emergency planning or catastrophe-related mitigation.
-Small student numbers allow us to modify the emphasis of the course content from year to year to cater to individual needs.
-Our unique approach to focusing on both the scientific knowledge of hazards and modern strategies of emergency planning make graduates of this course highly employable.
-The independent research project gives you the chance to specialise further by studying an area of interest in greater depth and gain valuable research skills. Our students often find this an excellent selling point when looking for a job or promotion.
-We have strong links with industry and practitioners in the emergency and disaster management field, including Search And Rescue Assistance In Disasters (SARAID), RNLI, Tearfund, Community Resilience and Surrey County Council Emergency Planning Unit.

Assessment

Written examinations, coursework (incorporating scenario-based hazard management exercises, ICT-based and paper-based practical exercises, role-play exercises, oral presentations, field reports, essays).

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Fieldwork opportunities

Fieldwork is an essential part of the Hazard and Disaster Management MSc. You will undertake a supervised week-long visit to a European field destination affected by multi-hazards (usually to Tenerife in June). You will conduct hazard, risk and vulnerability assessment of the area and evaluate existing hazard management strategies by the regional/local authorities. Find out more...

Course structure

You will study the underpinning scientific principles of both natural hazards (eg hurricanes, storms and tornadoes, flooding, landslides, volcanic eruptions, earthquakes, tsunamis and radon gas emissions) and human-induced disasters (eg terrorism, explosions and oil tanker accidents).

You will also cover modern disaster management strategies and planning techniques for the mitigation (eg structural measures and education), preparation (eg early warning), response (eg search and rescue) and recovery (eg insurance) phases.

You will also undertake active research in one or more of your chosen hazard areas.

Please note that this is an indicative list of modules and is not intended as a definitive list.

Modules
-Natural Hazards: Science and Society
-Managing Disasters
-GIS for Hazards and Emergency Planning
-Research Methods and Techniques
-Research Project (Dissertation)

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Learn the analytical and design skills needed to create successful structures in challenging environments. This is the largest academic concrete research centre in the UK so you’ll benefit from some great facilities. Read more

About the course

Learn the analytical and design skills needed to create successful structures in challenging environments.

This is the largest academic concrete research centre in the UK so you’ll benefit from some great facilities.

We have international-level expertise in cement chemistry, aggregate science, binder technology, concrete durability, alternative concrete materials, structural performance and design, earthquake and nuclear reactor design, and finite element analysis.

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.

Core modules

Linear Systems and Structural Analysis
Structural Dynamics (Earthquakes and Vibration)
Computational Structural 
Analysis and Research Skills
Advanced Concrete Design
Sustainable Concrete Technology
Innovations in Structural Concrete
Structural Design

Examples of optional modules

Blast and Impact Effects on Structures
Advanced Simulation of High Strain Rate Dynamics
Geotechnical Design

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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The civil engineers of the future will have to find innovative solutions to environmental challenges. We believe graduates from our MSc will be at the forefront of the new generation. Read more

About the course

The civil engineers of the future will have to find innovative solutions to environmental challenges. We believe graduates from our MSc will be at the forefront of the new generation.

The core modules give you a grounding in engineering analysis and design. In the second semester, you can follow your interests and choose from a list of specialist modules.

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 (Earthquakes and Vibration)
Computational Structural Analysis and Research Skills
Structural Design
Design of Earthquake Resistant Structures
Advanced Simulation of High Strain Rate Dynamics

Examples of optional modules

Advanced Concrete Design
Sustainable Concrete Technology
Structural Design and Fire Resistance
Innovations in Structural Concrete
Blast and Impact Effects on Structures
Geotechnical Design

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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The majority of new buildings in the UK have steel structures, the use of steel in construction is growing in many other parts of the world. Read more

About the course

The majority of new buildings in the UK have steel structures, the use of steel in construction is growing in many other parts of the world.

This specialist course aims to prepare structural engineers for careers in the global construction industry by providing advanced knowledge of the properties and applications of steel.

There is an active steel structures group within the department whose research feeds directly into our MSc (Eng) in Steel Construction.

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.

Core modules

Linear Systems and Structural Analysis
Structural Dynamics (Earthquakes and Vibration)
Computational Structural Analysis and Research Skills
Structural Design
Structural Design and Fire Resistance

Examples of optional modules

Innovations in Structural Concrete
Advanced Simulation of High Strain Rate Dynamics
Blast and Impact Effects on Structures
Design of Earthquake Resistant Structures
Geotechnical Design

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.

Read less
Despite the phenomenal technological progress of the 20th century, most people still live with the acute and chronic consequences of age-old hazards such as floods and earthquakes. Read more
Despite the phenomenal technological progress of the 20th century, most people still live with the acute and chronic consequences of age-old hazards such as floods and earthquakes. This MSc is for students who want to receive specialised scientific training in physical hazards that pose large risks to communities living throughout the world. Students on this programme will receive theoretical and practical training for understanding and quantifying hazards. They will learn about how hazards persist over long periods of time instead of merely as single events, but are composed of many smaller sub-events or how their effects are widespread.

Course Structure

Students take the following core modules, and a selection of elective modules, which, when combined, add up to 180 credits:
Core Modules:
-Understanding Risk (30 credits)
-Risk Frontiers (15 credits)
-Fundamentals of Risk Research (15 credits)
-Dissertation by Research (or) Vocational Dissertation (60 credits)

Elective Modules available in previous years include:
-Hydro-Meteorological Hazards (30 credits)
-Spatial and Temporal Dimensions of Hazard (30 credits)
-Social Dimensions of Risk and Resilience (30 credits)
-International Relations and Security in the Middle East (15 credits)
-Strategic Asia: Policy and Analysis (15 credits)
-European Security (15 credits)
-Social Policy and Society (30 credits)

Learning and Teaching

Understanding and managing risk is ultimately about choice. All elements of society, from individuals to governments, must make decisions – conscious or not – about the ways in which they perceive, interpret, balance, and mitigate risk. Risk permeates our day-to-day lives in ways that are now recognised to be much more complex than the hazard-vulnerability paradigm, which dominated risk research until the 1990s, recognised. A deeper understanding of the nature of risk, its emergence, and its interface and position within societies, has emphasised the need to take a much more complex view in which a general understanding of the ways in which risk is generated, experienced and managed needs to be combined with a specific understanding of particular science or policy areas.

The primary aim of this Masters programme is to equip students with a general understanding of risk; whilst simultaneously providing specific training in elements of risk-related research. This will be achieved through an interdisciplinary framework for understanding risk from a variety of perspectives. Students will learn theoretical and practical approaches to identifying and framing risk, as well as the underlying physical and social mechanisms that generate it. They will also examine the relationship of risk to knowledge and policy, and will be made aware of the array of advanced tools and techniques to assess the physical and social dimensions of risk under conditions of uncertainty. They will also be trained in the substance and methods associated with a range of science and policy areas, and be expected to demonstrate that they can combine their general training in risk with their specific understanding of the substance and method associated with the chosen area, through either a research-based or a vocational dissertation.

All students will undertake a suite of core modules (120 credits) which provide students with a range of skills and knowledge which result in a unique focus in risk combined with training in interdisciplinary research methods. These modules are:
-Understanding Risk
-Fundamentals of Risk Research
-Risk Frontiers
-Dissertation

Students then also select a suite of elective modules (another 60 credits). Students can choose to receive specialised scientific training in:
-The social dimensions of risk and resilience, and/or
-A combination of approaches to risk.

Electives can be selected from:
-Hydrological Hazards
-Spatial Temporal Dimensions of Hazards
-Social Dimensions of Risk and Resilience

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Develop as a producer/director of factual programmes and extend your creative skills and technical knowledge. With talks by industry professionals, and access to a broad range of equipment, you’ll create a portfolio of work that will help you stand out from the crowd. Read more
Develop as a producer/director of factual programmes and extend your creative skills and technical knowledge. With talks by industry professionals, and access to a broad range of equipment, you’ll create a portfolio of work that will help you stand out from the crowd.

Overview

No matter what experience you have of filmmaking, our course will develop your knowledge of factual UK TV and digital media content production, and your creative skills, to an advanced level. Along the way, you’ll make seven films of different lengths and write a dissertation on a media subject that excites and interests you.

Focusing on two key roles, the director and the producer (which in current factual programming are merged into one), you’ll explore the dynamics of this ever-changing industry, and what it takes to succeed. You’ll learn to become a visual storyteller, a communicator, a collaborator, a motivator and a problem solver. You’ll also develop skills in scheduling, production managing, budgeting and marketing programmes. Although the emphasis is on factual programming, there is scope and flexibility to develop more creative films.

With specialist technical workshops on camera operation, sound, lighting and editing, you’ll develop professional skills in screen-based production. This will be supported by tutorials, diary work, and independent research, giving you a strong critical and contextual grounding for your practical work.

You’ll be encouraged to collaborate with other students on this course and others, becoming a flexible media professional who can produce and deliver high-quality video content for many different clients.

All our teaching staff have backgrounds in the film and television industries, and they're supported by industry specialists and visiting lecturers.

Teaching times:
Trimester 1: Wednesdays & Thursdays, 10am - 1pm (full time); Wednesdays, 10am - 1pm (part time).
Trimester 2: Wednesdays 10am – 4pm, Thursdays 10am – 1pm (full time); Wednesdays 10am – 4pm (part time).
Trimester 3: Tuesdays 10am – 12pm for 4 weeks & then tutorials by arrangement (full time).
Trimester 4: Thursdays 10am – 1pm (part time)
Trimester 5 & 6: Tuesdays 10am – 12pm for 4 weeks & then tutorials by arrangement (part time)

Careers

Our course will prepare you for a career in TV or in the broader media, and help you to decide which areas of the industry attract you the most. Although the emphasis is on directing and producing, you might choose to move into cinematography, production management or even television programme sales once you graduate. You might also develop a particular interest in observational documentary, natural history films or science programming, and decide to follow a career in these fields.

Here at Cambridge School of Art, you’ll gain specialist skills that will be useful for traditional, experimental and creative documentary making, or films for education, training, public relations, current affairs, marketing and campaigning. Our course will prepare you to forge a portfolio or freelance career, and give you the ability to make high-quality content for broadcast, web, film festivals or cinema.

Core modules

Process and Practice as Research
Visual Storytelling
Understanding the Audience
Master's Dissertation Art and Design
Master's Project: Art and Design

Assessment

You’ll demonstrate your learning, and ensure you’re developing the knowledge and skills to complete the course, through:
• Producing and directing films of different lengths and styles
• Working in a team on a TV Studio production
• Written production analyses and reflective commentaries
• Essays
• Filming schedules & budgets
• Film pitches
• Final Masters Project: this film is your “calling card” for the industry

Your assignments are usually submitted at the end of each term. You’ll also be assessed informally and given feedback during the term to help you achieve to the highest level. Feedback could be on a film, a presentation or group participation; it will be given by your tutor and your fellow students.

Events

Our Wired events are specialist lectures and workshops run by industry professionals, where you’ll learn about up-to-date practices and get invaluable advice. Our past speakers have included Sean Bobbitt (cinematographer: 12 Years a Slave, The Place Beyond the Pines, Hunger), Peter Strickland and Nic Knowland (director and cinematographer: Berberian Sound Studio), Cilla Ware (freelance drama director of Silk, Spooks, Primeval), Kathy Lee (film editor: Abuelas, A Letter to Dad), and Larry Sider (sound designer, The Piano Tuner of Earthquakes, Mirrormask).

Our Creative Front Futures events, run by Creative Front Cambridgeshire, will give you a broader taste of the creative industries, and let you find out more about the world of film and television production as well as explore other career options.

You’ll also get first-hand experience of the industry at informal work placements throughout the course and benefit from our close links with Cambridge Arts Picturehouse, where we hold regular student and industry events.

Specialist facilities

When shooting your projects you’ll benefit from our fully-equipped TV studio with full lighting rig; professional-standard gallery; mixer; autocue; multi-purpose scenic backdrops suitable for current affairs, magazine programmes and dramas; a large four-waller film stage with overhead lighting, tracks, dollies and green screens and sets for flats; a full range of HD and SD location cameras (including Steadicam); location lighting; and sound-recording equipment.

For your post-production work you’ll get access to over 30 Final Cut editing suites, Pro Tools and the Adobe Creative Suite master collection. You’ll be trained on all our equipment by a team of experienced technical staff, who also maintain and manage the facilities.

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The MSc in Geotechnical Engineering is part of the Division of Civil Engineering's extensive programme of postgraduate studies and research. Read more
The MSc in Geotechnical Engineering is part of the Division of Civil Engineering's extensive programme of postgraduate studies and research. The course builds on the Division's renowned research expertise and industrial experience in current aspects of geotechnical engineering.

Why study Geotechnical Engineering at Dundee?

Key reasons include:
Better preparation for successful careers in industry, commerce or academia
Development of skills, knowledge and understanding in a specialist field
Participation in the research activities of a world-class department

A wide range of research projects are available in any of the following areas: earthquake engineering (foundations during earthquakes, liquefaction, faulting), offshore engineering (foundations, anchors, pipelines and offshore processes), foundation engineering and ground improvement. Some of these projects will be linked to industry

Development of transferable skills in research methods, communication and management of large and small scale projects

Part-time students have the option of relating their research project directly to ongoing work within their employment

Professional Accreditation: ICE/IStructE

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree. Visit http://www.jbm.org.uk for further information.

What's great about Geotechnical Engineering at Dundee?

Civil Engineering at Dundee is ranked top in Scotland for research. You will have the opportunity to engage with leading edge research at Dundee, meaning we attract students of the highest calibre and our graduates are highly sought after by employers worldwide. Students studying on our masters programmes benefit from our renowned research expertise and industry experience.

The Geotechnical Engineering research sub-group was established in 1997 and it has grown significantly since that time. In addition to its undergraduate and postgraduate teaching and research activities, the group offers services to industry across a broad range of geotechnical engineering. The group has hosted a number of major conferences and symposia in Dundee.

Who should study this course?

It is designed both for people pursuing a higher degree soon or immediately after obtaining their first degree, and for those with considerable work experience.

"I love how specialised [this course] is, as very few universities offer such speciality in Earthquake and Offshore Engineering. The course taught me how to solve real-life challenging problems, not to mention the strong industry linkage with my future employer - Subsea 7."
Vithiea Pang, MSc student

The start date is September each year, and lasts for 12 months.

How you will be taught

Modules start at the beginning of the academic session in September and are taught by lectures and tutorials.

What you will study

There are three main elements to the course programme:

Core Modules
These provide skills generic to engineering and research. The two modules are:

Research Methods and Diploma Project
Health, Safety & Environmental Engineering
Specialist Modules
The specialist modules provide in-depth and advanced knowledge, and build upon our expertise. These cover the following topics:

Offshore Geotechnical Engineering
Advanced Soil Mechanics and Geo-Environmental Engineering
Soil Dynamics and Earthquake Engineering
Advanced Structural Analysis
Research Project
The research project gives you the opportunity to benefit from, and contribute to our research. At the end of the project students submit a dissertation based on their research. Students select their projects from a list offered by the academic staff or may suggest their own topic. Many of these projects are collaborative with industry, particularly those in offshore engineering (for Oil and Gas, Marine Renewables and Aquaculture)

How you will be assessed

The course is assessed by coursework and examination.

Students taking the Postgraduate Diploma carry out a shorter research project and complete an extended report.

Careers

There is a continuing demand for civil engineers particularly in the energy and water sectors and the skills of the civil engineer are highly portable in the multi-disciplinary engineering sectors. The latest Institution of Civil Engineers Salary Survey for the UK (2010) indicates that the average total income of its senior members is nearly £100k, while that of recent graduates is £27.5k.

We are proud of our achievements in graduate employment. The blend of science, technology and management education and training gained in a unique learning environment that is both challenging and friendly, makes our graduates attractive to employers in civil engineering and a wider range of sectors.

Graduates from Dundee have gone on to achieve high level positions in most sectors of the profession. These include consulting engineers and contractors, the offshore industry and research organisations.

Funded places

Due to an initiative from the Scottish Funding Council (SFC) designed to support key sectors in the Scottish economy, there are 7 fully-funded places available to eligible students starting this course in 2013/14. This covers all tuition fees associated with the MSc programme and can be held by students classified as Scottish or EU for fee purposes only. Please indicate your interest in being considered for a funded place when you apply through UKPASS.

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Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems. Read more
Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems.

Qualifying as an actuary is a passport to a wide variety of careers in insurance companies, investments, pensions, health care and banking – not just in the UK, but throughout the world. Kent is one of a very few universities in the UK to teach the subject.

Our MSc in Applied Actuarial Science is fully accredited by the Institute and Faculty of Actuaries; it also provides a fast-track route to qualifying as an actuary, because students who achieve a high enough overall mark in this programme can obtain exemptions from the professional examinations included within their studies.

The MSc is available as a full-time (one-year) or part-time (two-year) programme and is suitable for those who have completed a first degree or postgraduate diploma in Actuarial Science, or those who have studied the majority of the earlier subjects in the Core Technical Stage subjects.

Visit the website https://www.kent.ac.uk/courses/postgraduate/174/applied-actuarial-science

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills.

In 2010, the Centre for Actuarial Science, Risk and Investment (CASRI) was set up within SMSAS to reflect the widening scope of the teaching and research of the staff. Areas of research interest include economic capital and risk management for financial services firms, mortality and longevity modelling, longevity indices and markets. Other research topics include genetics and insurance, insurance economics, pensions and corporate reporting.

The Centre includes 13 professionally qualified actuaries with many years’ practical experience in insurance and pensions, and who maintain excellent links with the actuarial profession.

Course structure

The course is based on a ‘core modules plus options’ structure and exemptions can be gained from the following professional examinations in the Core Applications Stage and Specialist Technical Stage: CA1, CA3, ST2, ST4 to ST9. You can also choose the optional Financial Modelling modules, which prepare you for subject CA2 in the Core Applications Stage. Find out more about accreditation for this programme (http://www.kent.ac.uk/casri/Accreditation/index.html) and the Institute and Faculty of Actuaries examinations (http://www.actuaries.org.uk/students/pages/our-exams-explained).

You must take 180 credits in order to pass the MSc. If you take fewer than 180 credits, you may be eligible for the Postgraduate Diploma in Applied Actuarial Science.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

MA909 - Enterprise Risk Management (30 credits)
MA912 - Life Insurance (30 credits)
MA914 - Pensions and Other Benefits (30 credits)
MA915 - Finance and Investment (30 credits)
MA916 - Derivative Securities (30 credits)
MA917 - General Insurance - Reserving and Capital Modelling (30 credits)
MA918 - General Insurance - Premium Rating (30 credits)
MA950 - Prophet (15 credits)
MA951 - Prophet 2 (15 credits)
MA952 - Financial Modelling (15 credits)
MA953 - Communications (15 credits)
MA921 - Actuarial Risk Management 1 (30 credits)
MA922 - Actuarial Risk Management 2 (30 credits)

Assessment

Assessment is usually by a mixture of coursework and examination; exact weightings vary from module to module.

- Accreditation
Students who are considered to have performed sufficiently well in the programme (both in examinations and coursework), as determined by an examiner appointed by the UK Actuarial Profession, will be exempt from subjects CA1, CA3 and the Specialist Technical subjects studied within the programme.

If you fail to achieve a suitable overall standard, you might still be awarded individual module exemptions as recommended by the Profession’s examiner. Please note that individual exemptions are granted based on the final written examinations only.

Programme aims

This programme aims to:

- provide successful students with eligibility for subject exemptions from the Core Application and Specialist Technical series of examinations of the Institute and Faculty of Actuaries. This means obtaining a thorough knowledge of core actuarial applications, developing the ability to apply this knowledge in a practical situation and gaining current knowledge and understanding of the practice of major areas in which actuaries are involved.

- develop your understanding, knowledge and awareness of current problems, much of which is at the forefront of current professional practice.

- ensure you are competent in the use of information technology, and are familiar with computers, together with the relevant software.

Careers

The UK Actuarial Profession

The UK Actuarial Profession is small, but influential and well rewarded. There are more than 6,500 actuaries currently employed in the UK, the majority of whom work in insurance companies and consultancy practices.

Survey results published by the Institute and Faculty of Actuaries (http://www.actuaries.org.uk/becoming-actuary/pages/what-can-actuary-earn) suggest that the average basic salary for a student actuary is £36,842 with pay and bonuses increasingly sharply as you become more experienced. The average basic salary of a Chief Actuary is £209,292.

As an actuary, your work is extremely varied and can include: advising companies on the amount of funds to set aside for employee pension payments; designing new insurance policies and setting premium rates; pricing financial derivatives and working in fund management and quantitative investment research; advising life insurance companies on he distribution of surplus funds; and estimating the effects of possible major disasters, such as earthquakes or hurricanes, and setting premium rates for insurance against such disasters. For more information about the actuarial profession, see http://www.actuaries.org.uk

- Employability support

Helping our students to develop strong employability skills is a key objective within the School and the University. We provide a wide range of services and support to equip you with transferable vocational skills that enable you to secure appropriate professional positions within industry. Within the School we run specialist seminars and provide advice on creating a strong CV, making job applications and successfully attending interviews and assessment centres.

Our graduates have gone on to successful careers in the actuarial, finance, insurance and risk sectors.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems. Read more
Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems.

Qualifying as an actuary is a passport to a wide variety of careers in insurance companies, investments, pensions, health care and banking – not just in the UK, but throughout the world. Kent is one of a very few universities in the UK to teach the subject.

Our Postgraduate Diploma (PDip) in Actuarial Science, MSc in Applied Actuarial Science and International Master’s are all fully accredited by the Institute and Faculty of Actuaries; they also provide a fast-track route to qualifying as an actuary, because students who achieve a high enough overall mark in these programmes can obtain exemptions from the professional examinations included within their studies.

This PDip in Actuarial Science programme gives you the opportunity to gain exemptions from eight of the Core Technical subjects (CT1 to CT8) of the professional examinations and provides you with a firm foundation for the later subjects. If you perform well enough on this course to obtain the full set of exemptions available, you could reduce your time to qualify as an actuary by three years or more.

Visit the website https://www.kent.ac.uk/courses/postgraduate/1/actuarial-science

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

MA319 - Probability and Statistics for Actuarial Science (15 credits)
MA501 - Statistics for Insurance (15 credits)
MA529 - Probability and Statistics for Actuarial Science 2 (15 credits)
MA639 - Time Series Modelling and Simulation (15 credits)
MA816 - Contingencies 1 (15 credits)
MA817 - Contingencies 2 (15 credits)
MA819 - Business Economics (15 credits)
MA820 - Financial Mathematics (15 credits)
MA825 - Survival Models (15 credits)
MA826 - Finance & Financial Reporting (15 credits)
MA835 - Portfolio Theory and Asset Pricing Models (15 credits)
MA836 - Stochastic Processes (15 credits)
MA837 - Mathematics of Financial Derivatives (15 credits)
MA840 - Financial Modelling (15 credits)

Assessment

Assessment is usually by a mixture of coursework and examination; exact weightings vary from module to module.

- Accreditation
Students who are considered to have performed sufficiently well in the programme (both in examinations and coursework), as determined by an examiner appointed by the UK Actuarial Profession, will be exempt from all the CT subjects studied within the programme. If a student fails to achieve a suitable overall standard, they might still be awarded individual module exemptions as recommended by the Profession’s examiner. Please note that individual exemptions are granted based on the final written examinations only.

Programme aims

This programme aims to:

- give you the depth of technical appreciation and skills appropriate to a Master’s level programme in actuarial science

- provide successful students with eligibility for subject exemptions from the Core Technical series of examinations of the actuarial profession. This means obtaining a thorough knowledge and understanding of various core actuarial techniques and gaining current knowledge and understanding of the practice of some of the major areas in which actuaries are involved

- ensure you are competent in the use of information technology, and are familiar with computers, together with the relevant software

- introduce you to an appreciation of recent actuarial developments, and of the links between subject theories and their practical application in industry

- prepare you for employment within the actuarial profession and other financial fields

- provide suitable preparation for students who wish to proceed to the MSc in Applied Actuarial Science.

Research areas

- Genetics and insurance risks

Advances in human genetics, and medical sciences in general, have led to many gene discoveries; a number of single-gene disorders have been successfully identified and studied in detail. Researchers are now increasingly focusing on common multifactorial genetic disorders such as cancer, heart attack and stroke, caused by interaction of genes and environmental factors. It is important for the insurance industry to understand the full implications of these latest developments. First, can an insurer justify charging different premium rates to different risk groups? Second, if insurers are not allowed to discriminate between individuals based on their genes, by regulation or by law, is there a risk of adverse selection?

- Economic capital and financial risk management

Financial services firms are in the business of accepting risks on behalf of their customers. Customers do not always have the time or expertise to handle financial risks on their own, so they pass these on to financial services firms. However, even the most reputable firms can sometimes get it wrong, so it is fundamentally important for all stakeholders that financial services firms hold an appropriate amount of capital calculated on a robust scientific basis, to back the risks they are running. Economic capital can provide answers by specifying a unifying approach to calculating risk-based capital for any firm in the financial services sector.

From a public policy perspective, regulators and governments face the dilemma of whether to regulate against genetic underwriting or to allow market economies to take their own course. On one hand, there is a moral obligation not to discriminate against individuals for their genetic make-up. On the other hand, risk of adverse selection against insurance firms cannot be ruled out altogether. Maintaining an appropriate balance between the two is key.

Careers

- The UK Actuarial Profession

The UK Actuarial Profession is small, but influential and well rewarded. There are more than 6,500 actuaries currently employed in the UK, the majority of whom work in insurance companies and consultancy practices.

Survey results published by the Institute and Faculty of Actuaries suggest that the average basic salary for a student actuary is £36,842 with pay and bonuses increasingly sharply as you become more experienced. The average basic salary of a Chief Actuary is £209,292.

As an actuary, your work is extremely varied and can include: advising companies on the amount of funds to set aside for employee pension payments; designing new insurance policies and setting premium rates; pricing financial derivatives and working in fund management and quantitative investment research; advising life insurance companies on he distribution of surplus funds; and estimating the effects of possible major disasters, such as earthquakes or hurricanes, and setting premium rates for insurance against such disasters. For more information about the actuarial profession, see http://www.actuaries.org.uk

- Employability support

Helping our students to develop strong employability skills is a key objective within the School and the University. We provide a wide range of services and support to equip you with transferable vocational skills that enable you to secure appropriate professional positions within industry. Within the School we run specialist seminars and provide advice on creating a strong CV, making job applications and successfully attending interviews and assessment centres.

Our graduates have gone on to successful careers in the actuarial, finance, insurance and risk sectors.

Professional recognition

Offers exemptions from subjects CT1 to CT8 of the Institute and Faculty of Actuaries professional examinations, with the option to take further subjects for exemption purposes.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems. Read more
Actuaries evaluate and manage financial risk. They make financial sense of the future for their clients by applying advanced mathematical and statistical techniques to solve complex financial problems.

Qualifying as an actuary is a passport to a wide variety of careers in insurance companies, investments, pensions, health care and banking – not just in the UK, but throughout the world. Kent is one of a very few universities in the UK to teach the subject.

Our International Master’s programme is fully accredited by the Institute and Faculty of Actuaries. It is equivalent to a Graduate Diploma (which covers the subjects taught within the Postgraduate Diploma in Actuarial Science), followed by the MSc in Applied Actuarial Science.

International Students

This programme is for international students with a good first degree who would like to gain exemptions from subjects in the Core Technical, Core Applications and Specialist Technical Stages of the Institute and Faculty of Actuaries’ examinations.

Visit the website https://www.kent.ac.uk/courses/postgraduate/176/international-masters-in-applied-actuarial-science

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills.

In 2010, the Centre for Actuarial Science, Risk and Investment (CASRI) (http://www.kent.ac.uk/casri/index.html) was set up within SMSAS to reflect the widening scope of the teaching and research of the staff. Areas of research interest include economic capital and risk management for financial services firms, mortality and longevity modelling, longevity indices and markets. Other research topics include genetics and insurance, insurance economics, pensions and corporate reporting.

The Centre includes 13 professionally qualified actuaries with many years’ practical experience in insurance and pensions, and who maintain excellent links with the actuarial profession.

Programme aims

This programme aims to:

- provide you with eligibility for subject exemptions from the Core Application and Specialist Technical series of examinations of the Institute and Faculty of Actuaries. This means obtaining a thorough knowledge of core actuarial applications, developing the ability to apply this knowledge in a practical situation and gaining current knowledge and understanding of the practice of major areas in which actuaries are involved

- develop your understanding, knowledge and awareness of current problems, much of which is at the forefront of current professional practice

- ensure you are competent in the use of information technology, and are familiar with computers, together with the relevant software.

Careers

The UK Actuarial Profession
The UK Actuarial Profession is small, but influential and well rewarded. There are more than 6,500 actuaries currently employed in the UK, the majority of whom work in insurance companies and consultancy practices.

Survey results published by the Institute and Faculty of Actuaries (http://www.actuaries.org.uk/becoming-actuary/pages/what-can-actuary-earn) suggest that the average basic salary for a student actuary is £36,842 with pay and bonuses increasingly sharply as you become more experienced. The average basic salary of a Chief Actuary is £209,292.

As an actuary, your work is extremely varied and can include: advising companies on the amount of funds to set aside for employee pension payments; designing new insurance policies and setting premium rates; pricing financial derivatives and working in fund management and quantitative investment research; advising life insurance companies on he distribution of surplus funds; and estimating the effects of possible major disasters, such as earthquakes or hurricanes, and setting premium rates for insurance against such disasters. For more information about the actuarial profession, see http://www.actuaries.org.uk

Employability support
Helping our students to develop strong employability skills is a key objective within the School and the University. We provide a wide range of services and support to equip you with transferable vocational skills that enable you to secure appropriate professional positions within industry. Within the School we run specialist seminars and provide advice on creating a strong CV, making job applications and successfully attending interviews and assessment centres.

Our graduates have gone on to successful careers in the actuarial, finance, insurance and risk sectors.

Professional recognition

Fully accredited by the Institute and Faculty of Actuaries. Students who achieve a high enough overall mark can obtain exemptions from the professional examinations included within their studies.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Make a positive difference to the lives of people around the world, addressing the global challenges of poverty and violence by linking theory and practice. Read more
Make a positive difference to the lives of people around the world, addressing the global challenges of poverty and violence by linking theory and practice. This is your opportunity to develop your awareness of the relationships between peace, conflict resolution and development, both nationally and internationally.

You will consider issues such as gender, poverty, livelihoods, human rights, the role of civil society and community participation in decisionmaking and governance. From security threats and terrorism to the arms trade and non-violent social movements, you will acquire an in-depth insight into global issues. You will study the political, economic, cultural, environmental and technological changes that influence development decisions.

Our teaching is delivered in small groups of students from around the world. We place a real emphasis on international debate, giving you access to a range of cultural perspectives, and we will provide you with skills in project management and funding, essential for working in the field.

- Research Excellence Framework 2014: our University demonstrated strength in five emerging areas of research which it entered into the assessment for the first time, including social work and social policy.

Visit the website http://courses.leedsbeckett.ac.uk/peaceanddvp_ma

Mature Applicants

Our University welcomes applications from mature applicants who demonstrate academic potential. We usually require some evidence of recent academic study, for example completion of an access course, however recent relevant work experience may also be considered. Please note that for some of our professional courses all applicants will need to meet the specified entry criteria and in these cases work experience cannot be considered in lieu.

If you wish to apply through this route you should refer to our University Recognition of Prior Learning policy that is available on our website (http://www.leedsbeckett.ac.uk/studenthub/recognition-of-prior-learning.htm).

Please note that all applicants to our University are required to meet our standard English language requirement of GCSE grade C or equivalent, variations to this will be listed on the individual course entry requirements.

Careers

You will find employment opportunities in the UK and overseas working for non-governmental organisations, the public sector and the media. Previous graduates from our University have gone on to work as teachers, social workers, journalists, development workers, university lecturers, government consultants and business managers, or have pursued their research interests and taken on PhDs.

- Charity/ Aid Worker
- Government Advisor
- Journalist

Careers advice: The dedicated Jobs and Careers team offers expert advice and a host of resources to help you choose and gain employment. Whether you're in your first or final year, you can speak to members of staff from our Careers Office who can offer you advice from writing a CV to searching for jobs.

Visit the careers site - https://www.leedsbeckett.ac.uk/employability/jobs-careers-support.htm

Course Benefits

You will benefit by being taught by our highly qualified team of academics who are renowned in their fields of research. Our research in peace and development keeps our curriculum fresh and cutting edge.

Staff members have close working links with organisations such as, Oxfam, Amnesty International, Pugwash, The Swiss Small Arms Survey, The Omega Foundation, The Mines Advisory Group, CND, Aegis, Huridocs and the Department for International Development (DfID), and we encourage students to engage with relevant external organisations and conferences.

Core Modules

Critical Perspectives on Peace and War
This provides an introduction to the core theories of war, peace and conflict reconstruction and an analysis of the major drivers, key theorists and practitioners.

Post-conflict Reconstruction and Peace Building
Critically examines and integrates peace and development discourses around post-conflict reconstruction and considers recovery from major disasters such as earthquakes and tsunamis.

Global Perspectives on Development
This module critically examines the conceptual framework of international development in a global context, introducing a variety of different perspectives. You will become familiar with 'development orthodoxy' and critiques of it.

Security Paradigms
Deconstructs the truth content of contrasting and often contradictory models of key security issues from the competing state power and human security perspectives.

Developing and Managing Projects
Allows you to apply your learning to an in-depth investigation of a research question of your choice. This might be related to interests you develop during the course or to a topic related to your existing work or career aspirations. You will be supervised by an experienced member of staff who is also an active researcher, and produce a 12-15000 word thesis.

Research Methods
This develops your ability to design suitable research questions, match them to appropriate research methods and apply these in a reflective and ethical way.

Dissertation
Engage in critical depth with a research-based project aligned to your personal interests and professional aspirations.

Dr Rachel Julian

Course Leader

"My previous experience has allowed me to build international professional networks that provide me with insights into the challenges and solutions for a more peaceful and just world, which I thoroughly enjoy sharing with my students. Teaching is exciting because I get to work with courageous people who are changing their communities for the better."

Rachel has been working in peace and conflict resolution for twenty years. Her roles have included peace education, organisation building and non-violence training, and she's been awarded for her work in community activism.

Facilities

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- Clinical Skills Suite
The £1 million suite has been designed to meet the learning needs of a range of health professionals, with specialist equipment in purpose-built rooms enabling a variety of sessions to be carried out in a suitable and safe environment.

Find out how to apply here - http://www.leedsbeckett.ac.uk/postgraduate/how-to-apply/

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If you have an interest in the earth in relation to minerals extraction Geophysics has plenty of scope to get involved in the profession itself and expertise required to explore different types of terrain but in a newly evolving landscape of assistive technology companies offering the latest methods of discovering production and risk issues beneath the earths surface. Read more

Your programme of study

If you have an interest in the earth in relation to minerals extraction Geophysics has plenty of scope to get involved in the profession itself and expertise required to explore different types of terrain but in a newly evolving landscape of assistive technology companies offering the latest methods of discovering production and risk issues beneath the earths surface. You learn these latest methods of finding out data to understand risk and potential engineering issues in difficult to reach places. Signal processing uses the latest advances in sensor development to set up an alert system to monitor specific areas which are normally difficult to reach. Seismic processing looks at how the earth moves not only in times of earthquakes but natural movement from chemical reactions beneath the surface of the earth.

Borehole extraction is used in mineral extraction but also to determine if reserves are live or loading is safe and much and more. The skills you learn apply equally to current and future mineral extraction as they do to land and sea where extraction has historically taken place and where there is application for a different use from a remediated coal mine for example where loading can be critical to risk for future use. The programme equips you with skills in hydrocarbon, minerals and associated industries or research. You understand structure from near surface to deep interior learning from geophysical data analysis and interpretation.

Courses listed for the programme

Semester 1
Earth Physics, Structure and Processes
Seismic Reflection Processing, Imaging and Quantitative Interpretation
Time Series Analysis and Signal Processing
Geophysical Inverse Theory and Statistics

Semester 2
Seismology and Earth Imaging
Field Geophysical Data Acquisition
Borehole Geophysics', Including Petrophysics and Well- Log Analysis
Topics in Advanced Applied Geophysics

Semester 3
Project in Geophysics

Find out more detail by visiting the programme web page
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/102/geophysics/

Why study at Aberdeen?

• You will gain hands on experience within our facilities with a large range of relevant equipment
• Join the Aberdeen Geological Society for guest lectures and learning and networking opportunities
• Study in a department ranked no 1 in Scotland for Earth Sciences
• We research Earth Science over time, with strengths in Geology, Sedimentology, Geochemistry and more.

Where you study

• University of Aberdeen
• Full time

International Student Fees 2017/2018

Find out about fees:
https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page
https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php
https://www.abdn.ac.uk/funding/

Living in Aberdeen

Find out more about:
• Your Accommodation
• Campus Facilities
• Aberdeen City
• Student Support
• Clubs and Societies

Find out more about living in Aberdeen:
https://abdn.ac.uk/study/student-life

Living costs
https://www.abdn.ac.uk/study/international/finance.php

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This research intensive course is tailored for talented students who already have a very strong background in geotechnical and earthquake engineering, providing a unique opportunity to conduct cutting edge research combining analytical with experimental methods in a transnational environment. Read more
This research intensive course is tailored for talented students who already have a very strong background in geotechnical and earthquake engineering, providing a unique opportunity to conduct cutting edge research combining analytical with experimental methods in a transnational environment. The research component is emphasized by the requirement to submit not only a thesis but a journal paper as well.

Why study Geotechnical Earthquake and Offshore Engineering at Dundee?

Civil Engineering at Dundee is ranked top in Scotland for research. Students of the highest calibre are therefore attracted to Dundee, being offered a unique opportunity to engage with cutting edge research.

Students studying on our masters programmes benefit from our renowned research expertise and industry experience, and our graduates are highly sought after by employers worldwide.

What's great about Geotechnical Earthquake and Offshore Engineering?

The MSc in Geotechnical Earthquake and Offshore Engineering provides students with the necessary knowledge and skills:
- To design Civil Engineering works to resist the destructive actions applied by earthquakes
- To design offshore foundations and pipelines

Efficient aseismic design requires simultaneous consideration of both geotechnical and structural engineering. The course is unique in that it takes a holistic approach in considering the subject from both perspectives equally, emphasizing soil-structure interaction and providing advanced training for both components.

Laboratory of Soil Mechanics, National Technical University of Athens (NTUA)

Please note that all teaching is carried out in English.

Research will be conducted jointly with the Laboratory of Soil Mechanics of the National Technical University of Athens (NTUA), introducing an international dimension that combines the core strengths of the two research groups, exploiting the state of the art 150g tonne capacity geotechnical centrifuge of the University of Dundee.

The latter is equipped with a latest-technology centrifuge-mounted earthquake simulator capable of reproducing any target waveform, making the Dundee centrifuge facility only one of 3 in Europe capable of earthquake replication. A specially designed split-box for simulation of seismic faulting and its effects on structures is also available, along with a variety of Strong and Equivalent Shear Beam (ESB) Boxes, and sensors (accelerometers, LVDTs, load cells, pore pressure transducers, etc.)

Who should study this course?

This course is research intensive and tailored to students with a very strong background in geotechnical earthquake engineering.

This course is taught by staff in the School of Engineering, Physics and Mathematics.

The start date is September each year, and the course lasts until the end of October in the following year (14 months in total). Students spend 50% of their time at the University of Dundee and 50% at the National Technical University of Athens (NTUA).

How you will be taught

Modules are taught via lectures, seminars, workshops, practical's and a research project.

What you will study

Students spend 50% of their time at the University of Dundee and 50% at the National Technical University of Athens (NTUA).

1st term at NTUA: September – December (4 months)

Research – 1st part: numerical and analytical methods.

2nd term at Dundee : January – April (4 months)

Core and Specialist Taught modules

Core Modules

CE52002: Health, Safety & Environmental Management
Specialist Modules

CE50005: Advanced Structural Analysis of Bridges
CE50023: Offshore Geotechnics and Pipelines
CE50024: Geoenvironmental Engineering
CE50025: Soil Dynamics
3rd term at Dundee : May – July (3 months)

Research – 2nd part: experimental methods

4th term at NTUA : August – October (3 months)

Research – 3rd part: Completion of MSc Thesis and Journal paper.

The distribution of allocated time between terms 3 and 4 will be flexible, and you may spend more time in either of the universities, depending on your project.

How you will be assessed

Modules are assessed by a mixture of coursework and exam. The research project is assessed by dissertation.

Careers

There is a continuing demand for civil engineers particularly in the energy and water sectors and the skills of the civil engineer are highly portable in the multi-disciplinary engineering sectors. The latest Institution of Civil Engineers Salary Survey for the UK (2010) indicates that the average total income of its senior members is nearly £100k, while that of recent graduates is £27.5k.

We are proud of our achievements in graduate employment. The blend of science, technology and management education and training gained in a unique learning environment that is both challenging and friendly, makes our graduates attractive to employers in civil engineering and a wider range of sectors.

Graduates from Dundee have gone on to achieve high level positions in most sectors of the profession. These include consulting engineers and contractors, the offshore industry and research organisations.

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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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