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Masters Degrees (Failure Analysis)

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If you’re a graduate from a science, mathematics, technology or another engineering discipline, this programme provides the knowledge and skills to convert… Read more

If you’re a graduate from a science, mathematics, technology or another engineering discipline, this programme provides the knowledge and skills to convert to a specialism in materials science and engineering or metallurgy to meet the present needs and future challenges of advanced materials and manufacturing in areas such as transportation, bioengineering, energy, electronics and information technology, sport and sustainable development.

Alternatively, if you’re already a professional engineer in the materials sector, you’ll have the chance to expand your expertise to enhance your career prospects.

Core modules cover key topics such as materials structures, processing-structure-property relationships, characterisation and failure analysis. You’ll also choose one from three groups of optional modules to focus your specialism to suit your own career plans and interests. Taught by experts in world-class facilities, you’ll gain the skills to thrive in a growing and fast-changing field.

Specialist facilities

You’ll benefit from the chance to study in cutting-edge facilities where our researchers are pushing the boundaries of materials science and engineering and metallurgy. We have state-of-the-art preparative facilities for making and characterising a wide range of materials, as well as equipment and instrumentation for carrying out more fundamental studies into their process-microstructure-property relationships.

Accreditation

The course is designed to provide graduates with the educational base required for Chartered Engineer (CEng) status. Accreditation is currently being sought from IoM3

Course content

Compulsory modules at the beginning of the programme lay the foundations of your studies in materials science or metallurgy. You’ll learn about processing-structure-property relationships, which lie at the heart of the discipline, as well as examining topics such as mechanical, physical and chemical behaviour, phase transformations and how the structure and local chemistry of materials may be characterised. You’ll cover materials and process selection and their role in design, and extend this into the principles and practice of failure analysis.

This prepares the way for three sets of specialist modules: you can decide to specialise in metallurgy, functional and nanomaterials or take a broader materials science approach covering metals, ceramics, polymers, composites and biomaterials. You’ll complete your taught modules either by studying a module in materials modelling (if you already hold an accredited Engineering degree) or participating in an industry-focused interdisciplinary design project.

You will complete your programme with a major individual research project of your own. With guidance from your supervisor, you will work on a topic related to the internationally-leading materials and metallurgical research carried out in the University, or you could propose a topic of your own related to your own professional work or that of an industrial sponsor.

Want to find out more about your modules?

Take a look at the Materials Science and Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Research Project (MSc) 60 credits
  • Phase Transformations and Microstructural Control 15 credits
  • Structure-Property Relationships 15 credits
  • Materials Selection and Failure Analysis 15 credits
  • Materials Structures and Characterisation 15 credits

Optional modules

  • Team Design Project 15 credits
  • Biomaterials and Applications 15 credits
  • Materials Modelling 15 credits
  • Materials for Functional Applications 30 credits
  • Metals and Alloys 15 credits
  • Ceramics, Polymers and Composites 15 credits
  • Nanomaterials 15 credits
  • Process Metallurgy 15 credits
  • Extractive Metallurgy 15 credits

For more information on typical modules, read Materials Science and Engineering MSc in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of the discipline through lectures, seminars, tutorials, small group work and project meetings. Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments, vivas and projects.

Projects

The research project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Recent projects by MSc Materials Science and Engineering students have included:

  • Hydrothermal synthesis of metal oxide nanoparticles
  • Temperature variable X-ray diffraction of high temperature piezoelectric material BiFeO3-KBiTiO3-PbTiO3
  • Fabrication of glass waveguide devices by femtosecond laser inscription
  • Microstructure development in drop-tube processed cast iron
  • Validation of cooling rate models of drop-tube processing
  • Characterisation of graphite nanoplatelets (GNPs) produced by solvent exfoliation of graphite
  • Studies of the effect of milling variables in the production of nanoparticles
  • Microstructural investigation of spray atomized powders

Career opportunities

There is currently an increasingly high demand for qualified materials scientists, materials engineers and metallurgists.

Career prospects are excellent and cover a wide range of industries concerned with the research and development of new and improved materials, materials synthesis and commercial production, and materials exploitation in cutting-edge applications in engineering and technology.

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UKs leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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Demand for aerospace engineering graduates is rising, both in the UK and overseas. In fact, the UK aerospace industry is the second biggest in the world after the USA, and it’s home to some of the world’s leading aerospace companies such as Airbus, Astrium, BAE Systems, GKN and Rolls-Royce. Read more

Demand for aerospace engineering graduates is rising, both in the UK and overseas. In fact, the UK aerospace industry is the second biggest in the world after the USA, and it’s home to some of the world’s leading aerospace companies such as Airbus, Astrium, BAE Systems, GKN and Rolls-Royce.

Taught by expert academics in a leading research environment, this programme will equip you with the knowledge and skills to succeed in an exciting and challenging sector. You’ll study aerospace structures and structural analysis, along with optional, specialist modules in areas such as aerodynamics and computational fluid dynamics, aircraft design, systems and optimisation methods, rotary wing aircraft and propulsion.

Our Aerospace Engineering Industrial Advisory Board is actively engaged in ensuring this course meets the needs of industry and reflects trends in the sector. It also provides industrial talks and seminars and advice and support to our students during their professional projects.

In addition to our advanced CAD facilities for design work, we have the latest industry-standard software for computational fluid dynamics and finite element modelling of material stress analysis, programming and structural and multidisciplinary optimisation.

Accreditation

We are currently seeking accreditation from the Institute of Mechanical Engineers (IMechE) and the Royal Aeronautical Society.

Course content

You’ll take a compulsory module in Semester 1 which develops your knowledge of aerospace structures and the theory behind aerospace structural analysis, as well as applying this understanding to real-world problems.

This will inform the rest of your studies, where you’ll select from a wide range of optional modules allowing you to pursue the topics that appeal to your interests or suit your future career plans. You could gain sophisticated knowledge in areas such as aerospace vehicle design, computational methods or materials failure analysis.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within aerospace engineering that allows you to demonstrate your knowledge and skills. In the two taught semesters you’ll review the literature around your topic and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months.

Want to find out more about your modules?

Take a look our Aerospace Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Aerospace Structures 15 credits
  • Professional Project 75 credits

Optional modules

  • Materials Selection and Failure Analysis 15 credits
  • Design Optimisation - MSc 15 credits
  • Aerospace Vehicle Design 20 credits
  • Aerodynamics and Aerospace Propulsion 20 credits
  • Finite Element Methods of Analysis 20 credits
  • Mechatronics and Robotics Applications 15 credits
  • Engineering Computational Methods 15 credits
  • Rotary Wing Aircraft 15 credits
  • Vehicle and Product Systems Design 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Aerospace Engineering MSc in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The professional project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Typical projects for MSc Aerospace Engineering students could include:

  • Design of a stiffened titanium aircraft structural component for additive manufacturing
  • Development of software based on Swarm Intelligence Methodologies for Structural Optimisation
  • Circulation control using air jets to improve the performance of aircraft wings and wind turbines
  • Design and optimisation of a Flexible Structural Support for a Mars Rover Umbilical Release Mechanism
  • Aerodynamic analysis of the Bloodhound supersonic car using Computational Fluid Dynamics
  • Computational Fluid Dynamics modelling of turbulent combustion processes
  • The control of flow separation using vortex generators

A proportion of projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer.

Career opportunities

The aerospace industry is one of the most successful parts of UK engineering and is truly global in nature.

You’ll be able apply the skills you gain from this course to numerous areas of the aerospace industry, such as aerospace fundamental research, airline management and operations, satellite operations, aerospace design and manufacture in both the civil and military environments and Formula 1 racing.

Whether you join an aerospace company in the UK, such as Airbus, BAE Systems or Rolls-Royce or choose to work elsewhere in the world, the foundation provided by the MSc will make sure you are prepared for a rewarding and challenging career.

Links with industry

During this course you will meet employers from organisations operating within this sector through seminars and talks and by attending our careers fair. In previous years there have been talks from colleagues at Airbus, Astrium, BAE Systems, Rolls-Royce to provide additional industrial perspectives to the course and career guidance to students. 



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The International Master of Science in Fire Safety Engineering (IMFSE) is a two-year educational programme in the Erasmus+ framework. Read more

The International Master of Science in Fire Safety Engineering (IMFSE) is a two-year educational programme in the Erasmus+ framework.

This masters programme is jointly offered by the following three full partner universities:

  • The University of Edinburgh, UK
  • Ghent University, Belgium (coordinator)
  • Lund University, Sweden

Additionally, there are three associated partners where students can perform thesis research:

  • The University of Queensland, Australia
  • ETH Zurich, Switzerland
  • The University of Maryland, United States of America

Classes in Edinburgh focus on fire dynamics, fire safety engineering and structural design for fire. Classes in Ghent have a more general fire safety engineering focus. Classes in Lund emphasise enclosure fire dynamics, risk analysis and human behaviour.

Our Building Research Establishment (BRE) Centre for Fire Safety Engineering hosts bespoke equipment to support groundbreaking research and teaching, with combined thermal and mechanical loading and use of the latest image analysis techniques.

IMFSE is very pleased to involved seven industrial partners as official sponsors. With their annual financial contributions, it has been made possible to create the IMFSE Sponsorship Consortium, which awards IMFSE students with full or partial scholarships. The current sponsors are:

  • Arup
  • IFIC Forensics
  • UL
  • Promat
  • FPC
  • BRE
  • Fire Engineered Solutions Ghent

Programme structure

The programme consists of four semesters each worth 30 ECTS credits. Changing study location after each semester lets you benefit from the expertise of each university.

Semester 1

Students choose to study at either Ghent or Edinburgh.

Ghent University:

  • Fire Dynamics
  • Basics of Structural Engineering
  • Thermodynamics, Heat and Mass Transfer

And 9 ECTS credits from the following elective courses (subject to approval by the faculty):

  • FSE Based Firefighting (3 credits)
  • Modelling of Turbulence and Combustion (3 credits)
  • Turbomachines (6 credits)
  • Introduction to Entrepreneurship (3 credits)

The University of Edinburgh:

  • Fire Science and Fire Dynamics
  • Fire Safety Engineering
  • Fire Safety, Engineering and Society (this course replaces Fire Investigation and Failure Analysis, which will move to Semester 3 from 2017/18 onward)
  • Engineering Project Management

Semester 2

Lund University:

  • Advanced Fire Dynamics
  • Human Behaviour in Fire
  • Risk Assessment
  • Simulation of Fires in Enclosures

Semester 3

Students choose to study at either Ghent or Edinburgh.

Ghent University:

  • Active Fire Protection I: Detection and Suppression
  • Active Fire Protection II: Smoke and Heat Control
  • Explosions and Industrial Fire Safety
  • Fire Safety Regulation
  • Passive Fire Protection
  • Performance-Based Design

The University of Edinburgh:

  • Fire Science Laboratory
  • Structural Design for Fire
  • Fire Safety, Engineering and Society (this course will be replaced by Fire Investigation and Failure Analysis from 2017/18 onwards)
  • Finite Element Analysis for Solids

Semester 4

The masters thesis can be completed at one of the three full partners universities, or at one of the three associated partners. The thesis work is supervised by at least one of the full partner universities.

Career opportunities

We aim to train the next generation of leaders in this field; there is currently great demand for fire safety engineering graduates worldwide and graduates have gained relevant employment or enhanced career opportunities.

A fire safety engineer fulfils a broad range of duties, in various ways related to fire. This can range from designing fire protection for a space station, to protecting treasures such as the US Constitution, to safely securing the occupants of a high-rise building from fire hazards.

Fire safety engineers are in great demand by corporations, educational institutions, consulting firms, and government bodies around the world. You may find career opportunities in the following industries:

  • consulting engineering firms
  • fire departments
  • fire equipment and systems manufacturers
  • government
  • hospitals and health care facilities
  • insurance industry
  • research and testing laboratories
  • educational institutions
  • entertainment industry
  • forensic investigations


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This innovative course offers both MSc and MA streams. It has been designed to develop your ability to apply economic analysis to policy issues and business problems, which are often ambiguous and multi-faceted. Read more
This innovative course offers both MSc and MA streams. It has been designed to develop your ability to apply economic analysis to policy issues and business problems, which are often ambiguous and multi-faceted. Although there is a strong theoretical core, the course focus of the course is very much on the practical application of economic techniques to problems, and on developing the ability to communicate the insights that economic analysis can provide.

The course has been created in conjunction with the Government Economic Service (GES) – a major employer of economics graduates in the UK. The University of Westminster is the only English university to have secured GES recommended status for a postgraduate course in economics.

The course aims to provide you with an in-depth knowledge and understanding of the latest developments in economics, with a focus on practical skills and development of the skills needed by a working economist. It is specifically aimed at those with a genuine interest in the application of economics to real-world situations.

As well as enhancing your ability to apply relevant economic principles in the support of policy and strategy development, the course aims to develop your ability to communicate complex issues to wide audiences, your awareness of significant sources of economic and financial data, the problems faced when carrying out policy evaluation and your capability for self-awareness and group working.

Course content

You will gain an understanding of the key concepts in economics that underpin public sector policy and business decision making. This includes the various scenarios where we explore opportunity cost, equilibrium and disequilibrium, strategic interaction, market failure and the related concept of externalities.

You'll develop your analytical skills by applying these concepts to current challenges that face the profession, at both macro and micro levels, and in both private and public sectors. This will provide you with the latest insights drawn from both the academic and practitioner arenas.

Around a common core of modules covering key theoretical and practical elements, the MSc stream offers the possibility of pursuing a course of study in economics with a greater quantitative focus, while the MA stream has a stronger international emphasis.

Students on this course benefit from free access to part of the material on the course reading list and an online subscription to Financial Times. In addition, you will get exposure to a global network of professional economists through a free student membership to the Society of Business Economists.

Modules

The following modules are indicative of what you will study on this course. For more details on course structure and modules, and how you will be taught and assessed, see the full course document.

Core modules
-Economic Evaluation Project
-Macroeconomic Analysis and Policy
-Microeconomic Analysis and Policy
-Research Methods
-Strategy and Appraisal in Economics
-Data Analysis
-Economic Policy Perspectives

Option modules
-Innovation Economics
-Labour Economics

Accredited internship

All students on our full-time business Masters courses can apply to undertake the PG/MBA Internship Programme Reflective Practitioner Module. This is an 8 week unpaid accredited internship, which can be taken in addition to option modules and will help students to gain invaluable work experience. The internships, which are with London-based organisations, take place during the summer period. To apply, students must submit a completed application form and a copy of their updated CV to the Business Experience Team; the team then shortlist from the applications and conduct group meetings with the applicants.

Ultimately it is up to our internship employers to decide whether they would like to interview the candidate(s) and offer him/her an internship. We have received very positive feedback from both postgraduate students and employers and expect that the internship programme will continue to remain popular amongst our students.

Careers

Our dedicated Career Development Centre is actively working with an ever-expanding network of over 3,000 employers to provide you with exceptional employability support and guidance. As a result we were nominated as finalists for a significant industry award – the NUE Awards Most Improved Commitment to Employability 2016.

We provide our students with work placements and international opportunities to support them in becoming highly employable, globally engaged graduates, and with one million businesses operating within 20 miles of the University of Westminster, over 84% of our students are in work or further study six months after graduation. Our graduates work in a variety of sectors and organisations, from small/medium-sized companies and start-ups to large not-for-profit organisations and corporates.

During your time at Westminster you will be able to use our comprehensive online vacancy service and meet with our experienced careers consultants, providing you with thorough training and support on CV writing, application forms, interview preparation and assessment centres.

In addition to this, you will receive careers support from academic staff and faculty work placement teams, offering targeted course-specific careers advice and assistance in securing a work placement during your time at Westminster.

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The course programme will suit graduates in Sport Sciences or Physical Therapy who are interested in exercise rehabilitation in particular. Read more
The course programme will suit graduates in Sport Sciences or Physical Therapy who are interested in exercise rehabilitation in particular. It has been designed to be flexible and relevant to the student’s individual needs and interests, with a strong emphasis on the application of theory to professional practice. Within the modular structure all students undertake core/compulsory modules in:

Research Skills;
Independent Study (a one to one supervised programme of work leading to the development of the proposal for the Research Project);
Supervised Experience – a module tailored to the needs of the individual and could include directed work with a specified client group or individual patient;
Research Project relevant to the programme being studied.
Research Skills
Research Skills is a double credit taught module. Students study the broad nature of the research process that will allow them to complete, initially, an appropriate Independent Study (in which a research proposal for the Research Project is completed) and subsequently, a full Research Project. The module covers material relevant to the design and analysis of both quantitative and qualitative research. It also provides a broad understanding of the benefits and limitations of various research methods, research designs, data collection instruments and data analysis tools. Students are given the opportunity to develop their ability to be critically evaluative.

Specific content includes: Statistical issues in quantitative research and design; Simple and multiple (forced entry, moderated and mediated) regression analyses; Single factor analysis of variance with and without repeated measures; Two factor analysis of variance with and without repeated measures; Single factor and two factor multivariate analysis of variance (with and without repeated measures); Repeated measures analysis of variance using the multivariate solution; Doubly repeated measures analysis of variance; Analysis of covariance; Follow-up procedures for all of the above; Assumptions underpinning all of the above and available options for dealing with violations to these assumptions; Experiments and causal inference; External and construct validity; Experimental and quasi-experimental designs; Correlational and epidemiological research; Reliability and validity in quantitative and qualitative research; Issues in qualitative research and design; Interviews; Single case design and analysis; Observation; Narrative; Ethnography; grounded theory and discourse analysis.

Independent Study
The Independent Study should consist of a critical and concise review of the research literature pertaining to a particular research question. A rationale for the proposed research question must be provided, along with a sound methodology for exploring the research question, planned analyses, and expected outcomes. Further, anticipated problems such as resources, equipment, possible ethical issues, informed consent forms, a statement of feasibility of the project and expected costs must be discussed.

Supervised Experience
The content of this module will be largely student specific and include activities (workshops, directed reading, client based work) that will develop the individual’s personal applied support skills. Initially, students complete an individual self-assessment of their current skills/knowledge base and set personal goals to enable them to improve their applied support skills. All students will attend units (workshops) on Ethics in Research and consultancy, communication and counselling skills and how to conduct a needs assessment. Specific physiology and psychology workshops (e.g. Imagery) will also take place.

Students will complete a contract of intended activities agreed with their supervisor in the first four weeks of their programme of study. This contract may, where appropriate, include the intention to apply to British Association of Sport and Exercise Science (BASES) to commence a formally logged Supervised Experience.

A portfolio will then be developed; the portfolio records activities including meetings with supervisor, attendance at workshops, meetings and a plan of work with at least one client, and thought/evaluations of all meetings and workshops (i.e. evidence of reflective practice).

Overview and Format of the Research Project module
The Research Project is an independent piece of research, and acts as the culmination of the academic challenges faced by the student. The module comprises 60 credits (ie equivalent to three double modules) and will formally equate to some 600 hours of student time.

Specifically, this will involve a review of research evidence with the aim of formulating an appropriate research question, and will likely involve some refinement and pilot work. Once achieved, the student will implement a research design and method suited to the area of enquiry. The supervisor provides excellent expert guidance throughout the process.

Mono-disciplinary studies and interdisciplinary work, which might involve the student’s ongoing sport/exercise experience, will be encouraged. Each topic will normally involve data collection, analysis and interpretation and allow students to demonstrate their powers of imagination, initiative, independence and time management. Students will be expected to show a thorough knowledge of the relevant sources of information and the ability to use them with discrimination; to provide full references; to exercise sound and independent judgment; to structure work logically and to express themselves with clarity and precision.

In addition to the above, students also undertake compulsory modules in Clinical Exercise Physiology (including disease and aging), Exercise Psychology and Rehabilitation of the Injured Athlete. This latter module covers theoretical perspectives in sports injury rehabilitation; psychological response to sports injury; the role of confidence in injury and rehabilitation; exercise, training principles and biomechanics of rehabilitation; plus returning the athlete to competition; failure to rehabilitate; current trends in injury rehabilitation research and future research directions; and critical assessment of sports rehabilitation research.

The programme is delivered using a variety of teaching methods, including lectures, seminars, workshops, group activities, practical work, tutorials and role play. Each module comprises approximately 200 hours (including formal contact).

You will also have the opportunity to gain a REPs* accredited Level 2 Gym Instructor vocational qualification free of charge to supplement your MSc academic qualification. This will depend on prior learning and it is expected that MSc students on the Exercise Rehabilitation programme will be able to gain this qualification by carrying out approximately half the typical work load. This vocational qualification is a required qualification within the exercise referral industry.

* Register of Exercise Professionals

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The MSc Economic and Financial Risk Analysis was launched in response to the changing economic and financial environment. It is designed to provide students with the fundamental concepts and the necessary tools required by the financial sector. Read more

Overview

The MSc Economic and Financial Risk Analysis was launched in response to the changing economic and financial environment. It is designed to provide students with the fundamental concepts and the necessary tools required by the financial sector. Focusing on Financial Risk Analysis, Derivatives, Investments and Econometrics, this programme provides students with the quantitative skills needed by employers and thus opens up a diverse set of career opportunities both within and outside the financial sector. The emphasis is on ‘education’ with graduates encouraged to think for themselves and become proficient in problem solving.

Course Structure

The course is structured to be stimulating and challenging. It is designed to give graduates the necessary economic and quantitative skills that employers seek today. In the first semester, students take modules in the core areas of Microeconomics, Macroeconomics and Econometrics and also a module in Research Methods. All modules are a mixture of theory and practical application. In the second semester, students specialise in finance and must take modules in Financial Economics, Financial Risk Analysis and Empirical Finance, as well as one field course. Field courses offered in any year may include International Finance, Market Microstructure, Advanced Derivatives and Corporate Finance. During the summer, students are required to undertake a three-month Work Placement, subject to availability. If students cannot secure a Work Placement then it will be replaced by a Research Thesis.

Career Options

The 2-year MSc in Economics and Financial Risk Analysis at Maynooth University is a great opportunity for interested candidates to ready themselves for a career in financial services. Without requiring any background in Finance, students who are ready to make this important investment can expect to earn high returns in their future careers. This degree has the potential to open up career opportunities across the globe. As financial markets become more integrated, the career prospects of our graduates have become greatly enhanced. Recent graduates are currently enjoying successful careers in Credit risk management, insurance, hedge fund management, and investment and retail banking in the private sector. The diverse careers of our graduates reflect the adaptability and flexibility of our graduates.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC code
MHH68

The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. Non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships.

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The MSc Economic and Financial Risk Analysis was launched in response to the changing economic and financial environment. It is designed to provide students with the fundamental concepts and the necessary tools required by the financial sector. Read more

Overview

The MSc Economic and Financial Risk Analysis was launched in response to the changing economic and financial environment. It is designed to provide students with the fundamental concepts and the necessary tools required by the financial sector. Focusing on Financial Risk Analysis, Derivatives, Investments and Econometrics, this programme provides students with the quantitative skills needed by employers and thus opens up a diverse set of career opportunities both within and outside the financial sector. The emphasis is on ‘education’ with graduates encouraged to think for themselves and become proficient in problem solving.

Course Structure

The course is structured to be stimulating and challenging. It is designed to give graduates the necessary economic and quantitative skills that employers seek today. In the first semester, students take modules in the core areas of Microeconomics, Macroeconomics and Econometrics and also a module in Research Methods. All modules are a mixture of theory and practical application. In the second semester, students specialise in finance and must take modules in Financial Economics, Financial Risk Analysis and Empirical Finance, as well as one field course. Field courses offered in any year may include International Finance, Market Microstructure, Advanced Derivatives and Corporate Finance. During the summer, students are required to undertake a three-month Work Placement, subject to availability. If students cannot secure a Work Placement then it will be replaced by a Research Thesis.

Career Options

The MSc Economic and Financial Risk Analysis at NUIM could be the most important investment in your career. This degree has the potential to open up career opportunities across the globe. As financial markets become more integrated, the career prospects of our graduates have become greatly enhanced. Recent graduates are currently enjoying successful careers in Credit risk management, insurance, hedge fund management, and investment and retail banking in the private sector. The diverse careers of our graduates reflect the adaptability and flexibility of our graduates.

Check out testimonials from graduates at https://www.maynoothuniversity.ie/economics-finance-and-accounting/our-graduates

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHH64

The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. Non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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This course aims to provide a broad mixture of theoretical and applied engineering principles, coupled with a practical design and manufacturing final project. Read more

About this course

This course aims to provide a broad mixture of theoretical and applied engineering principles, coupled with a practical design and manufacturing final project. It will enable you to display mastery of complex and specialised subject areas within the motorsport industry.

This course provides a broad mixture of theoretical and applied engineering principles, coupled with a theoretical, analytical or practical design and manufacture final project. It will lead to accreditation at full Chartered Engineer (CEng) status.‌‌‌

The course has been designed to offer the maximum amount of choice possible in specialist subjects and learning modes. This means that there are some modules taught through lectures and tutorials, some through blended or e-learning. You’ll study on your own, but also as part of a group on an integrated project to give you experience of working within multidimensional teams.

You’ll study modules such as:

Research Methods: Application and Evaluation
Applied Internal Combustion Engine Thermosciences
Forensic Engineering, Failure Analysis and Prevention
CPD and Strategic Management
Integrated Control Systems
Environmental Risk and Responsibility
Negotiated Module
Applied Computational Fluid Dynamics
Independent Scholarship (Technology)

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Develop skills in the analysis, design and assessment of engineering structures subject to normal, seismic and extreme loading and environmental conditions. Read more
Develop skills in the analysis, design and assessment of engineering structures subject to normal, seismic and extreme loading and environmental conditions.

Accredited by relevant professional bodies and designed to meet the needs of the modern construction industry, this course offers a wide range of structural engineering principles, as you learn about issues relating to steel and concrete structures and foundations.

Through this highly technical course, studied one year full-time or two years part-time, you will develop skills in numerical simulation using a variety of advanced software.

Part-time study is flexible. Normally students will take three years to complete the programme if they undertake one module per week but the length of the course can be reduced to two years, if two modules are taken each week. Many part-time students undertake projects in their place of work.

See the website http://www.napier.ac.uk/en/Courses/MScPGDipPGCert-Advanced-Structural-Engineering-Postgraduate-FullTime

What you'll learn

You will also learn failure analysis methods, the Eurocodes and the code of practice for the design of various construction materials, research skills and the legal issues surrounding construction.

The course is accredited by the Institution of Civil Engineers (ICE), the Institution of Structural Engineers (IStructE) and the Chartered Institution of Highways & Transportation (CIHT). Industry practitioners are regularly invited as guest speakers and lecturers.

Modules

• Advanced mechanics of materials and FEA
• Advanced structural concrete
• Advanced; structural steel design
• Forensic engineering;
• Foundation design to eurocode 7
• Structural; dynamics and earthquake design
• MSc thesis

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

As a qualified structural engineer with advanced training, you will be in demand in the construction industry worldwide. Alternatively, you may choose to use this course as the basis for further education or extensive research.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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This course aims to develop your skills and knowledge in areas such as automotive, aerospace, scientific and manufacturing applications. Read more

About this course

This course aims to develop your skills and knowledge in areas such as automotive, aerospace, scientific and manufacturing applications.

You'll specialise in mechanical and manufacturing engineering, together with broader engineering topics, to gain the knowledge needed for registration as a Chartered Engineer (CEng). This course is flexible, so you'll have lots of choice in the specialist subject modules you take and the ways you learn. You'll study some modules through lectures, tutorials and also online. There is time given to both independent study and group work and your assignment will give you valuable experience of teamwork.

Our close links with local companies such as Toyota, Balfour Beatty and Bombardier, as well as professional bodies, will help you stay up to date with current developments in industry. The overarching aim is to make sure you develop the skills employers are looking for.

You’ll study modules such as:

Research Methods: Application and Evaluation
Advanced Mechanical Modelling and E-manufacturing
Forensic Engineering, Failure Analysis and Prevention
CPD and Strategic Management
Advanced Mechanical Design and Manufacturing Engineering
Environmental Risk and Responsibility
Robotics and Manufacturing Control Systems
Negotiated Module
Independent Scholarship

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One of the fundamental challenges associated with hydrocarbon production is ensuring the integrity of the assets used to extract and transport process fluids, particularly from effects such as internal corrosion. Read more

One of the fundamental challenges associated with hydrocarbon production is ensuring the integrity of the assets used to extract and transport process fluids, particularly from effects such as internal corrosion. As a result, the demand for qualified corrosion engineers with specific expertise in oilfield operations continues to grow.

This course is appropriate for professional engineers in industry who are seeking to expand their expertise, as well as graduate engineers or physical scientists looking to gain specialist knowledge relevant to the oil and gas sector.

The course develops your skills in measuring, predicting and managing corrosion as well as assessing asset integrity. Optional modules allow you to focus on topics relevant to your interests and career plans.

Taught by academic staff at the forefront of their fields, the course enables you to develop a range of skills and a solid knowledge base from which to launch an exciting career within the oil and gas industry.

You’ll learn in a stimulating research environment supported by world-class specialist facilities which support the individual project element of the programme. These include access to equipment such as high temperature/high pressure autoclaves, quartz crystal microbalance, erosion-corrosion rigs/flow loops, rotating cylinder electrodes/bubble cells, visualisation cells and potentiostats with AC/DC capabilities.

The projects are also supported by access to our corrosion lab’s own advanced surface analysis suite, containing optical microscopes, mini-sims, IR/UV spectroscopy techniques, atomic force microscopes and a nano-indenter.

Accreditation

This course is accredited by the Institute of Mechanical Engineers (IMechE) under licence from the UK regulator, the Engineering Council.

Course content

Core modules in each semester provide you with a thorough understanding of key aspects of oilfield corrosion engineering. You’ll study topics which cover aspects such as material selection, chemical inhibition, surface engineering technologies, the principles of physical metallurgy, electrochemistry and corrosion management strategies for new or mature assets.

You’ll also select from optional modules that allow you to focus on specific topic areas such as tribology and its impact on mechanism design or engineering computation. Modules are also available through Leeds University Business School covering aspects of operations management, to prepare you for a range of roles in industry.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within mechanical engineering that allows you to demonstrate your knowledge and skills. In the two taught semesters you’ll review the literature around a specific topic (chosen from an extensive list provided) and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months.

Want to find out more information about your modules?

Take a look at the Oilfield Corrosion Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Metals and Alloys 15 credits
  • Materials Selection and Failure Analysis 15 credits
  • Oilfield Chemistry and Corrosion 15 credits
  • Advanced Oilfield Corrosion 15 credits
  • Surface Engineering 15 credits
  • Professional Project 75 credits

Optional modules

  • Materials Structures and Characterisation 15 credits
  • Risk Perception and Communication 15 credits
  • Effective Decision Making 15 credits
  • Managing for Innovation 15 credits
  • Engineering Computational Methods 15 credits
  • Introduction to Tribology 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Oilfield Corrosion Engineering MSc(Eng) in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, poster sessions, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The professional project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Most projects are experimentally based and linked with companies within the oil and gas industry to ensure the topic of research is relevant to the field whilst also addressing a real-world problem.

Recent projects for MSc Oilfield Corrosion Engineering students have included:

  • Corrosion of wellbore materials under high temperature and pressure
  • Nanotechnology applications in oil and gas for advanced corrosion protection
  • Evaluation of green inhibitors
  • Understanding galvanic corrosion of welds in high shear conditions
  • Application of acoustic emission as a tool for predicting erosion severity
  • Development and testing of a novel, custom cell to understand top of line corrosion

Career opportunities

With this qualification, excellent career options are open to you to practise as a professional corrosion engineer and play a major role in ensuring the safe and efficient recovery of natural resources.

Graduates have gone on for a range of companies such as BP, Petronas, Wood Group Kenny and EM&I.

You’ll also be well prepared to continue with research in this field, either within industry or at PhD level within academia.

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UKs leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website



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The MPhil and PhD programmes in Chemical Engineering attract students from diverse disciplinary backgrounds such as statistics, maths, electrical engineering, chemistry and physics. Read more
The MPhil and PhD programmes in Chemical Engineering attract students from diverse disciplinary backgrounds such as statistics, maths, electrical engineering, chemistry and physics. You may work on multidisciplinary research projects in collaboration with colleagues across the University or from external organisations.

Research in the School of Chemical Engineering and Advanced Materials is cross-disciplinary and our strategy is to ensure that our research groups grow and provide a balanced portfolio of activities for the future. This is achieved in part through MPhil and PhD supervision.

Advanced materials

Every article, instrument, machine or device we use depends for its success upon materials, design and effective production. We work on a wide range of materials topics including:
-New material development
-Optimising of materials processing
-Testing and evaluation at component scale and at high spatial resolution
-Modelling
-Failure analysis

Much of our work relates to materials and processes for renewable energy generation, energy efficiency, carbon capture and storage. We also use biological and bio-inspired processes to develop new functional materials.

The Group Head is Professor Steve Bull, Cookson Group Chair of Materials Engineering – high spatial resolution mechanics. His research focuses on development and testing of compliant and porous materials, and the use of sustainable materials. Professor Bull is the 2013 recipient of the Tribology Silver Medal presented by the Tribology Trust, the top national award in this area.

Electrochemical engineering science

Electrochemical Engineering Science (EES) arose out of the pioneering fuel cell research at Newcastle in the 1960s. We are continuing this research on new catalyst and membrane materials, optimising electrode structures and developing meaningful fuel cell test procedures.

We are investigating electrochemical methods for surface structuring, probing and testing at the micron and nanoscale. More recently, we have been using electrochemical analysis to understand cellular and microbial catalysis and processes.

Applications of our research are in:
-Energy production and storage
-Micro and nanoscale device fabrication
-Medical and health care applications
-Corrosion protection

The Group Head is Professor Sudipta Roy. Professor Roy's research focuses on materials processing, micro/nano structuring and corrosion.

Process intensification

Process intensification is the philosophy that processes can often be made smaller, more efficient and safer using new process technologies and techniques, resulting in order of magnitude reductions in the size of process equipment. This leads to substantial capital cost savings and often a reduction in running costs.

The Group Head is Professor Adam Harvey. Professor Harvey's research focuses on Oscillatory Baffled Reactors (OBRs), biofuel processing and heterogeneous catalysis.

Process modelling and optimisation

Our goal is to attain better insight into process behaviour to achieve improved process and product design and operational performance. The complexity of the challenge arises from the presence of physiochemical interactions, multiple unit operations and multi-scale effects.

Underpinning our activity is the need for improved process and product characterisation through the development and application of process analytical techniques, hybrid statistical and empirical modeling and high throughput technologies for chemical synthesis.

The Group Head is Professor Elaine Martin. Professor Martin's research focuses on Process Analytical Technologies, Statistical and Empirical Process Data Modelling, and Process Performance Monitoring.

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The course aims to provide industry-ready professionals equipped with the skills needed for success in a variety of banking, finance, analysis, local government and regional development careers. Read more
The course aims to provide industry-ready professionals equipped with the skills needed for success in a variety of banking, finance, analysis, local government and regional development careers.

You will be taught critical knowledge for Economic and Financial Analyst careers, and have extended opportunities to develop highly valued skills using industry-standard software (Bloomberg and Stata) in your analysis of real data to answer your own research questions.

All this will be done in a challenging and thought provoking manner, which questions the traditional assumptions underlying many mainstream models of societies and economies to arrive at more useful perspectives.

Following this course, you would have the ability to assess a new financial product or innovation in terms of its likely success or failure, and its overall effect on the financial system.

You may also have the opportunity to participate in:
-Industry visits to real companies
-Short term internships with local employers
-Live business projects for real clients

This course is aimed at graduates who may have studied economics, finance or business-related degrees at undergraduate level. It is also suitable for those not holding a degree but who possess relevant professional qualifications or experience.

[Features and benefits of the course]]
-You will be taught in the internationally recognised multi-award-winning Business Schoolon All Saints Campus. .
-As a student of the Accounting, Finance and Economics Department, you will have complementary access to Bloomberg, the leading global platform used by the world’s leading banks, corporations and government agencies for news, data, analytics and research.
-Read our new economics blog at: http://www.business.mmu.ac.uk/eomics
-There are opportunities to focus your assignments on your employment goals.
-You will have extensive access to real world data and academic journals.
-Our academic team includes internationally renowned economists and finance specialists
-Timetabled lectures and seminars are complemented by the guest lecture series run by the Accounting, Finance and Economics Society

Postgraduate internship programme

Employers look favourably on candidates who can demonstrate relevant and practical work experience. All Masters students at the Business School are encouraged to undertake an optional, short-term internship with a real business in order to develop relevant experience relating to their studies.

The Postgraduate Internship Programme is an optional unit which allows you to gain up to fourteen weeks of work experience in a business environment; putting your studies into practical application, at the same time as gaining practice credits, which are recorded on your degree qualification transcript.

A dedicated Placement and Project Coordinator will guide you through this process, by sourcing and advertising suitable roles throughout the year, offering 1-2-1 application advice, and supporting you to make speculative applications to source your own Internships.

Internships can be part-time or full-time but must fit around your scheduled classes.

About the Course

Our postgraduate programmes aim to combine academic knowledge from leading research in the area with the professional skills that employers are seeking.

Our research in business brings together a number of synergistic research centres and knowledge clusters and our doctoral school of PhD researchers.

Assessment details

You will be assessed through research orientated coursework rather than the traditional mix of exams and coursework which do not allow you to focus on your interests.

Research and academic skills underpin the successful completion of your taught units and dissertation/research project.

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This programme (See http://www.postgraduate.hw.ac.uk/prog/msc-advanced-mechanical-engineering/ ) aims to develop the knowledge and skills of a Bachelor’s-level graduate Mechanical Engineering to Masters level through advanced teaching, design work and research. Read more

Overview

This programme (See http://www.postgraduate.hw.ac.uk/prog/msc-advanced-mechanical-engineering/ ) aims to develop the knowledge and skills of a Bachelor’s-level graduate Mechanical Engineering to Masters level through advanced teaching, design work and research. As such it is also an opportunity for candidates from a different Engineering background to develop key Mechanical Engineering knowledge and skills required for their professional development. A key objective of the programme is to be an accredited route to becoming Chartered Engineer.

This programme makes use of masters-level courses in the Energy Sciences and Manufacture & Design complemented with specialist courses from relevant MSc courses offered by the institute. We have seen a growing need for an advanced mechanical engineering programme at the request of applicants, and our industry partners. This programme has been specifically developed to meet this need and to encourage students of this field into further learning.

The Scottish Funding Council has made available 20 scholarships covering fees only to students with Scottish backgrounds. 6 of these places are reserved for applicants to this programme in the first instance. The remaining places are spread over all our Energy based MSc programmes. There is no separate application process for this. If you are eligible, you will be considered automatically. You will be notified through the summer if you have been selected.

Programme content

Semester One - Mandatory
- B81PI Professional and Industrial Studies
This course is specifically designed to meet the master’s level outcome requirements in the areas of professional development and practice for chartered engineering status. This multi-disciplinary course uses industrial speakers and speakers from those in the university involved in bridging the gap between academia and industrial application.

- B51GS Specialist Engineering Technologies 1
The first of the specialist engineering technologies courses is based on computational fluid dynamics and assessed by a group project

Optional (Choose two)
- B51DE Engineering Design
In this course students interact with companies in a real life small R&D project supplied by the industrial partners. Working in teams, the students have to manage the design of a prototype, product or system and interact with the industrial contact putting into practice problem-solving skills from other engineering topics studied elsewhere in the programme.

- B51EK Fluids 1
Fluid mechanics applied to aerodynamics, including ideal flows, boundary layers, and aerofoils and their use for analysis and design purposes.

- B51EM Advanced Mechanics of Materials 1
Advanced classical mechanics including 3D stress and strain with particular application to thin walled vessels. Fatigue analysis and design for fatigue limit.

- B51EO Dynamics 1
To provide students with a thorough understanding of vibration theory and an appreciation of its application in an engineering environment

- B51EQ Thermodynamics 1
Thermodynamic cycles including heat engines and reverse heat engines and means of evaluating best performance.

- G11GA Flame Appraisal
Introduction to the stages required for evaluating an oilfield for production. This covers geological considerations and fluid flow from oil bearing rock.

Semester Two – Mandatory

- B81EZ Critical Analysis and Research Preparation
This course provides research training and addresses literature review skills, project planning, data analysis and presentation with a focus to critically discuss literature, and use data to support an argument.

- B51HB Failure Accident Analysis
To acquaint students with the potential causes of material, structure or component failure; framework under which a failure or forensic engineering investigation should be carried out and give them the opportunity to work case studies through from information-gathering to preparation of reports and an awareness of fire and explosion engineering.

- B51GT Specialist Engineering Technologies 2
To present advanced theory and practice in important or emerging areas of technology including non-linear final element materials to include contact mechanics, design of components subjected to high stress applications.

Optional (Choose one)
- B51EL Fluids 2
To provide a methodology for analysing one-dimensional compressible flow systems.

- B51EN Advanced Mechanics of Materials 2
To provide students with an opportunity to: carry out advanced analyses of mechanics of materials problems; analyse mechanics of materials where time is a significant additional variable; use final element analysis for cases involving viscoelasticity and complex geometry
engage with the findings of recent research in a mechanics of materials topic

- B51EP Dynamics 2
To provide students with a thorough understanding of control theory and an appreciation of the subject of environmental acoustics and passive noise control

- B51ER Thermodynamics 2
Investigation of heat transfer mechanisms with a view to the design of effective heat exchangers for given operating conditions. The study of radiation heat transfer and combustion equilibrium.

- B51DF Engineering Manufacture
To provide the student with a detailed understanding of the importance and integration of advanced manufacturing technology and manufacturing systems within the context of product engineering. On completion, the students should have acquired a detailed understanding of the product development process from initial conception through to product support as well as appreciate the impact of each stage of the process on the business and organisationally with respect to information dependence and manufacturing processes employed.

- G11GD Flame Development
A continuation of Flame Appraisal, this course looks at the well-head arrangement for oil extraction. This is an introduction to drilling engineering and the techniques required for oil extraction.

Semester 3 – Mandatory

- B51MD Masters Dissertation
An individual project led by a research active member of staff on a current research theme with the aim of leading to the production of a journal article.

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-advanced-mechanical-engineering/

Scholarships available

We have a number of fully funded Scottish Funding Council (SFC) scholarships available for students resident in Scotland applying for Advanced Mechanical Engineering. Find out more about this scholarship and how to apply http://www.hw.ac.uk/student-life/scholarships/postgraduate-funded-places.htm .

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Data analytics/science is the science of extracting insight from large amounts of raw data in order to enable better understanding of the processes that created it and so help in analysis, theory exploration and decision making. Read more

Overview

Data analytics/science is the science of extracting insight from large amounts of raw data in order to enable better understanding of the processes that created it and so help in analysis, theory exploration and decision making. These techniques can be applied in the natural science, social science and business domains.
The Higher Diploma in Data Analytics is a new, purpose designed course which has been carefully designed to address industry needs. The course is a collaboration between the Departments of Mathematics & Statistics, Computer Science and the National Centre for Geocomputation.
The modules are designed to give students the knowledge and skills to collect, process, analyse and visualise data in order to extract useful information, explore statistical patterns, test hypotheses, and explore the implications of models.

Course Structure

Students will gain skills in programming, statistics and databases, followed by an advanced module on statistical machine learning. The course includes material on the social and ethical consequences of the use of data and the implications for business and government. Applications from many industry sectors will be explored in our Case studies module. In the Project module, students will put these technical skills in to practice. They will also gain experience in report writing, presentations and teamwork. Our Workplace preparation module will help students transfer these skills to the workplace.

Career Options

The Data Analytics jobs market is expanding in Ireland. Jobs are available in any industry or sector that collects data, ranging from IT, to Healthcare, Finance, Food science and Travel.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHR66

The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:
Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. Non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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