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Master’s Degree in Quantitative Finance and Risk Management draws on the recognized excellence of our engineering school in quantitative finance, and makes great use of the collaborations with the Universities of Paris-Dauphine and Cergy-Pontoise. Read more
Master’s Degree in Quantitative Finance and Risk Management draws on the recognized excellence of our engineering school in quantitative finance, and makes great use of the collaborations with the Universities of Paris-Dauphine and Cergy-Pontoise. The Master is primarily going to appeal to international students, "free movers" or those from our partner universities or for high-potential foreign engineers who are looking for an international career in the domain of finance. This program leads to a Master degree and a Diplôma accredited by the French Ministry of Higher Education and Research.

Objective

This Master’s degree covers the whole chain of quantitative finance, from theoretical aspects to the application in a professional setting. The chain can be described as follows:
o Description of the market and financial products
o Mathematical models of finance
o Mathematical models of risk
o Numerical resolution: computer-aided simulation
o Calibration and asset evaluation

Specific details of the Master:
o The Master came from the Financial Engineering option (IFI) taught at the ESITI for the last 13 years (all students from the option have found work as soon as their compulsory internships finished, and have an average salary 20% higher than the norm in this sector).
o In and of itself, the Master is intrinsically international.
o The theoretical teaching of this Master is very thorough, covering everything needed to know in the associated professions. As a consequence, the students are very adaptable within the work market.
o The Master offers a 3-skilled approach, in Computer Science, Mathematics and Finance.

Practical information
The Master’s degree counts for 120 ECTS (European Credit Transfer System) in total and lasts two years. The training lasts 1316 hours (646 hours in M1 and 670 hours in M2). The semesters are divided as follows:
o M1 courses take place from September until June and count for a total of 60 ECTS
o M2 courses take place from September until mid-April and count for a total of 44 ECTS
o A five-month internship (in France) from mid- April until mid- September for 16 ECTS. Usual indemnities are around 1000 € per month.

Non-French speakers will be asked to participate to a one week intensive French course that precedes the start of the program and allows students to gain the linguistic knowledge necessary for daily interactions.

Organization

M1 modules are taught from September to June (60 ECTS, 646 h):
• Mathematics
• Measure and Integration (2 ECTS, 20 h)
• Functional Analysis (3 ECTS, 30 h)
• Stochastic Processes-Discrete/Continuous Time (5,5 ECTS, 55 h)
• Optimization (2,5 ECTS, 30 h)
• Jump Processes and Application (3 ECTS, 30h)
• Partial Differential Equations (3 ECTS, 30 h)
 Calibration, Simulation and Numerical Analysis
• Monte Carlo Simulations (3 ECTS, 30 h)
• Finite Difference Methods (2,5 ECTS, 25 h)
• Calibration of Financial Models (2 ECTS, 20 h)
• Bloomberg trading room (3ECTS, 30h)
• C++ and Object Oriented Design (2 ECTS, 20 h)
• VBA Programming (3 ECTS, 30 h)
• Interdisciplinary Project (5 ECTS, 5 h)
 Finance and Insurance
• Introduction to Quantitative Finance (3 ECTS, 25 h)
• Risk Management in a mono-period Financial Market & Derivatives (4 ECTS, 40 h)
• Contingent Claims Valuation (3 ECTS, 30 h)
• Portfolio Management and Financial Risks (3 ECTS, 30 h)
• Mathematics Applied to Insurance (3 ECTS, 30 h)
• French as Foreign Language
• French as Foreign Language (4,5 ECTS, 96 h)

M1 modules are taught from September to June (60 ECTS, 646 h):
• Mathematics
• Measure and Integration (2 ECTS, 20 h)
• Functional Analysis (3 ECTS, 30 h)
• Stochastic Processes-Discrete/Continuous Time (5,5 ECTS, 55 h)
• Optimization (2,5 ECTS, 30 h)
• Jump Processes and Application (3 ECTS, 30h)
• Partial Differential Equations (3 ECTS, 30 h)
• Calibration, Simulation and Numerical Analysis
• Monte Carlo Simulations (3 ECTS, 30 h)
• Finite Difference Methods (2,5 ECTS, 25 h)
• Calibration of Financial Models (2 ECTS, 20 h)
• Bloomberg trading room (3ECTS, 30h)
• C++ and Object Oriented Design (2 ECTS, 20 h)
• VBA Programming (3 ECTS, 30 h)
• Interdisciplinary Project (5 ECTS, 5 h)
• Finance and Insurance
• Introduction to Quantitative Finance (3 ECTS, 25 h)
• Risk Management in a mono-period Financial Market & Derivatives (4 ECTS, 40 h)
• Contingent Claims Valuation (3 ECTS, 30 h)
• Portfolio Management and Financial Risks (3 ECTS, 30 h)
• Mathematics Applied to Insurance (3 ECTS, 30 h)
• French as Foreign Language
• French as Foreign Language (4,5 ECTS, 96 h)

M2 modules take place from September to Mid-April (60 ECTS, 670h)
• Mathematics
• Mathematical Statistics (2 ECTS, 21 h)
• Mathematical Tools in Finance (4,5 ECTS, 54h)
• Calibration, Simulation and Numerical Analysis
• Advanced Numerical Methods for PDEs in Finance(2,5 ECTS, 30 h)
• Advanced Spreadsheet Programming (2 ECTS, 24h)
• Simulations (2 ECTS, 24 h)
• Calibration (3 ECTS, 30 h)
• Theoretical and Practical Finance
• Theory of Contingent Claims (4,5 ECTS, 54 h)
• Interest Rate, Exchange and Inflation Markets (2,5 ECTS, 30 h)
• Portfolio Managment (2,5 ECTS, 30 h)
• Imperfect Markets (2 ECTS, 20 h)
• Dynamic Hedging and Risk Measures (2 ECTS, 21 h)
• Business Evaluation (2,5 ECTS, 35 h)
• Jump Processes and Applications (2 ECTS, 21 h)
• Careers and financial products (2 ECTS, 30 h)
• Practical Fixed Income Management (2 ECTS, 24 h)
• French as Foreign Language
• French as Foreign Language (4 ECTS, 72 h)
• Master's Thesis (9 ECTS, 150 h)
• Internship (22 weeks from mid-April to)

Teaching

Fourteen external teachers (lecturers from universities, teacher-researchers, professors etc.), supported by a piloting committee, will bring together the training given in Cergy.

All the classes will be taught in English, with the exception of:
• The class of FLE (French as a foreign language), where the objective is to teach the students how to understand and express themselves in French.
• Cultural Openness, where the objective is to enrich the students’ knowledge of French culture.
The EISTI offers an e-learning site to all its students, which complements everything the students will learn through their presence and participation in class:
• class documents, practical work and tutorials online
• questions and discussions between teachers and students, and among students
• a possibility of handing work in online

All Master’s students are equipped with a laptop for the duration of the program that remains the property of the EISTI.

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The MSc Analytical Chemistry programme provides a postgraduate qualification in Analytical Chemistry for science graduates who have limited experience of analytical chemistry at the undergraduate level. Read more
The MSc Analytical Chemistry programme provides a postgraduate qualification in Analytical Chemistry for science graduates who have limited experience of analytical chemistry at the undergraduate level. Uniquely in the sector, students are taught to make chemical measurements to ISO 17025, the international standard for all testing and calibration laboratories: this is highly valued by employers of analytical chemists throughout the world.

Students acquire practical and problem solving skills through the use of state-of-the-art analytical instrumentation in ISO9001:2015 certified laboratories.

Key features

-Prepare for a professional career in analytical chemistry, in the pharmaceutical, clinical, forensic, food, water, energy and environmental sectors
-Learn to make chemical measurements to ISO 17025, the international standard for all testing and calibration laboratories. This ability is highly valued by employers of analytical chemists worldwide
-Engage in a hands-on, problem-based approach to learning, with an emphasis in applying your practical skills to real-world problems
-Acquire practical and problem-solving skills through the use of state-of-the-art analytical instrumentation in our ISO9001 certified laboratories

Course details

Core modules
-GEES514 Research Skills for Science
-GEES520 MSc Dissertation
-CHM5002 Analytical Chemistry Principles
-CHM5003 Analytical Instrumentation
-CHM5004 Quality Assurance and Accreditation
-CHM5006 Analytical Chemistry Advanced Problems and Practice for MSc

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Fascinated by the science of sound? Southampton Solent University’s applied acoustics masters programme can provide you with the skills and knowledge required to work in a range of acoustics fields. Read more

Overview

Fascinated by the science of sound? Southampton Solent University’s applied acoustics masters programme can provide you with the skills and knowledge required to work in a range of acoustics fields. Suitable graduate destinations include consultancy, engineering, environmental health, built environment work or further study at PhD level.

Taught by experts with experience in both research and industry, you can get hands-on experience and learn to use the latest measurement, simulation and modelling technology. You will also study important acoustics principles including how humans respond to sound, acoustic physics, and how sound interacts with our environment.

- Students learn from industry experts with strong backgrounds in industry, research and consultancy roles.
- Southampton Solent’s on-campus acoustics consultancy provides students with the opportunity to work with real clients.
- The curriculum is informed by industry partners and Solent’s strong track record of acoustics research.
- Solent has a 10-year history of successful graduate employment in the acoustic industries.
- Students are given the opportunity to tailor the programme to their own career ambitions by picking from a range of optional units.
- Students have free access to the latest industry-standard technology including a state-of-the-art 3D digital Cinema with Dolby Atmos; a Hemi-anechoic chamber; CadnaA, EASE and CATT software; and a wide variety of lab and field test equipment.

The industry -

Acoustics offers an intellectual and practical challenge across a wide range of sectors - from manufacturing or construction to architecture, telecommunications and engineering.

Acousticians could be involved in designing and planning exciting new infrastructure projects such as airports, motorways and sports arenas; could be responsible for making aeroplanes and cars quieter; or could work on improving the sound quality of consumer electronics. Acousticians are also involved in the design of new buildings – from flats and houses through to skyscrapers and concert halls.

The programme -

Taught by experts with strong research and industry backgrounds, MSc Applied Acoustics offers students the chance to gain hands-on experience with the latest measurement, simulation and modelling technology. Students also study relevant scientific principles such as how humans respond to sound, acoustic physics, and how sound interacts with our environment.

We have excellent links with the Institute of Acoustics (IoA) and the Association of Noise Consultants, as well as a number of commercial companies across the sector. These include KP Acoustics, with whom we have a formal partnership for work placement and mentoring. The course has also been designed to meet the requirements for professional IoA registration.

To aid study and help perfect techniques, students have full access to the University’s laboratory and studio facilities. Students will be able to undertake acoustic measurement and laboratory projects using a wide range of test equipment such as sound level meters, a 16-channel data acquisition system, head and torso simulators, a laser vibrometer and ambisonic microphones. Students will also have access to cutting-edge simulation and modelling software, including MATLAB, NI Labview, CadnaA, CATT Acoustic, and EASE.

The University also offers access to specialist facilities for the testing and demonstration of acoustic and electro-acoustic principles, including a hemi-anechoic chamber, audio isolation booths for sound recording and audiometric testing, and the University’s own digital 3D cinema.

Thanks to the course team’s strong industry connections, students have access to guest speakers from a range of relevant organisations. Previous speakers have included Mark Murphy and Jim Griffiths (Vanguardia Consulting), Nicholas Jones (Hilson Moran) and Phil McIlwain (Westminster City Council).

Course Content

Programme specification document - http://mycourse.solent.ac.uk/course/view.php?id=6152

Teaching, learning and assessment -
The course is taught through classroom seminars/lectures, laboratory sessions and independent learning, as well as your supervised research project. While some laboratory sessions entail working in a group, all assessment is individual.

Partial credit can be awarded to holders of the Institute of Acoustics diploma in acoustics and noise control against equivalent taught modules of the MSc. Please contact the course team for further information.

Work experience -

There are a number of opportunities for work experience with professional partners and contacts, as well as through the University’s own Solent Acoustics consultancy.

Past students have worked on a range of projects, including for Truck Festival, Isle of Wight Festival, Westminster City Council and KP Acoustics.

Additionally, the Professional Skills and Practice unit involves organising your own work placement with an external company, supported by staff and making use of the course team’s industry contacts.

Assessment -

The course is assessed through a mixture of coursework, projects, presentations and practical and written examinations.

Our facilities -

On the master’s course you will have access to a wide range of specialist equipment and facilities, including:

- Hemi-anechoic chamber with 16-channel National Instruments data acquisition system.
- NTi Flexus electroacoustic analysis system with turntable.
- Wide range of Class 1 and 2 Sound level meters.
- Cirrus Research Dosebadge workplace noise assessment kits.
- Building acoustics systems including conical and dodecahedral loudspeakers and tapping machine.
- B&K Head and Torso Simulators (HATS).
- Environmental noise measurement kits.
- Polytec Laser Vibrometer.
- Larson Davis Hand Arm vibration measurement system.
- Siemens Unity and Amplivox audiometers and Larson Davis Audiometer calibration system.
- Computer suites with EASE, CATT and CadnaA acoustic modelling software.

Web-based learning -

Solent’s virtual learning environment provides quick online access to assignments, lecture notes, suggested reading, discussion forums and other course information.

You will also receive a subscription to the online video tutorial resource Lynda.com, to help learn extra professional skills.

The Professional Skills and Practice optional module is a distance/online module, supported through the virtual learning environment.

Why Solent?

What do we offer?

From a vibrant city centre campus to our first class facilities, this is where you can find out why you should choose Solent.

Facilities - http://www.solent.ac.uk/about/facilities/facilities.aspx

City living - http://www.solent.ac.uk/studying/southampton/living-in-southampton.aspx

Accommodation - http://www.solent.ac.uk/studying/accommodation/accommodation.aspx

Career Potential

Acoustics offers an intellectual and practical challenge across a wide range of sectors, from manufacturing or construction to architecture, telecommunications or various engineering industries.

Acousticians could be involved in designing and planning exciting new infrastructure projects such as airports, motorways and sports arenas, or could be responsible for making airplanes and cars quieter, or improving the sound quality of a television or computer.

Acousticians are also involved in the design of new buildings – from flats and houses through to skyscrapers and concert halls.

Career destinations -

Examples of career destinations include:

- acoustic engineer
- audio system designer
- recording studio and concert hall designer
- environmental health officer
- environmental consultant
- audio engineer
- health and safety officer
- building control officer.

Links with industry -

We have excellent links with the Institute of Acoustics and the Association of Noise Consultants, as well as a number of companies across the sector, including KP Acoustics (with whom we have a formal partnership for work placement and mentoring).

Guest speakers from a range of different organisations regularly present seminars and workshops, which have recently included Mark Murphy and Jim Griffiths (Vangardia Consulting), Nicholas Jones (Hilson Moran) and Phil McIlwain (Westminster City Council).

The University also hosts regular industry events and conferences to which students are invited.

Transferable skills -

The MSc in Applied Acoustics offers students a wide variety of transferable skills, such as using software to analyse and present complex data, use of Geographical Information Systems (GIS) and architectural CAD modelling, problem solving, mathematics, project management and research skills.

Further study -

If you are particularly interested in research, the course offers opportunities to continue on to PhD study.

You will also have the chance to gain additional qualifications while you study, such as the Institute of Acoustics (IoA)’s certificates of competence in building acoustics measurement or environmental noise measurement, at significantly reduced cost.

There is also the opportunity to register to take the assessment for the IoA Diploma in Acoustics and Noise Control while taking the MSc (registration fee applies).

Examples of employment obtained by recent graduates -

Solent graduates have gone on to work in acoustics roles for Apple (acoustic engineer), Accon UK, Samsung (audio engineer), Cole Jarman Associates, Hilson Moran, Mott Macdonald, KP Acoustics, Hann Tucker Associates, Hoare Lea, Vangardia Consulting and Clarke Saunders Associates, among others.

Next steps

Looking to hone your knowledge of acoustics while boosting your employability? With top-of-the-line facilities, an experienced teaching team and a history of delivering world-class acoustics tuition, Southampton Solent University’s MSc Applied Acoustics will help equip you with the skills you need to thrive in a range of exciting careers.

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The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Read more
The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Plymouth University is the only university which requires students to work in ISO9001:2015 certified laboratories.

Practical work to the ISO 17025 standard is a requirement at level seven for obtaining the MChem Analytical Chemistry qualification. The programme focuses on producing practical professional chemists through a hands-on approach to learning.

Key features

-The programme provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels 4 to 7 (Masters Level)
-You will develop the theoretical and practical skills necessary for employment as professional chemist in a range of chemical and allied fields, including research, teaching and industry
-The programme will develop the theoretical and practical skills, and provide training necessary for employment as an analytical chemist with experience of working to ISO 17025, the international standard for all testing and calibration laboratories
-You will learn to become a practical professional chemists through a hands-on approach to learning.
-The course places the professional skills of communication, problem solving, information and data retrieval and project management at its heart.

Course details

Year 1
Core modules
-CHM1011 Practice of Chemistry
-CHM1015 Organic and Inorganic Chemistry 2
-CHM1016 Physical and Computational Chemistry 2
-CHM1012 Organic and Inorganic Chemistry 1
-CHM1013 Physical and Computational Chemistry 1

Optional modules
-CHM1014PP Solving Chemical Problems
-MATH1604PP Symmetry and Space
-SPNX100PP Spanish 1
-FREX100PP French 1
-GERX100PP German 1
-MATH1607PP The Quantum Universe

Year 2
Core modules
-CHM2013 Physical Chemistry
-CHM2011 Inorganic Chemistry
-CHM2012 Organic Chemistry
-CHM2015 Analytical Chemistry 2
-CHM2014 Analytical Chemistry 1
-APIE218 Preparation for the Chemical Industry Work Placement
-CHM2016 Research Skills

Year 3
Optional modules
-APIE318 Placement in Chemistry

Year 4
Core modules
-CHM3016 Advanced Physical Chemistry
-CHM3014 Advanced Inorganic Chemistry
-CHM3015 Advanced Organic Chemistry

Optional modules
-CHM3011 Chemistry Project
-CHM3012 Chemistry Project incorporating Work Based Learning
-CHM3013 Advanced Analytical Techniques
-CHM3017 Physical Chemistry

Final year
Core modules
-GEES514 Research Skills for Science
-CHM5001 MChem Analytical Chemistry Project
-CHM5004 Quality Assurance and Accreditation
-CHM5005 Analytical Chemistry Advanced Problems and Practice for MChem

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Created in partnership with companies such as the Ford Motor Company and Jaguar Land Rover, the programme is also aimed at existing or prospective product development engineers and those working in manufacturing, particularly those working alongside product design personnel in the context of cross-functional teams and simultaneous working practice. Read more
Created in partnership with companies such as the Ford Motor Company and Jaguar Land Rover, the programme is also aimed at existing or prospective product development engineers and those working in manufacturing, particularly those working alongside product design personnel in the context of cross-functional teams and simultaneous working practice.

Students study three compulsory modules and a further three modules from a choice of five. In addition, full-time students undertake a university-based project and part-time students undertake an industry-based project.

An online study support system provides additional information and materials to facilitate student discussion.

The programme is accredited by the Institution of Mechanical Engineers (towards Chartered status).

This course is aimed at engineers working in the automotive industry who wish to extend and deepen their skills and understanding of the field, as well as recent graduates who intend to start a career in the industry.

Though primarily aimed at product development engineers, the course offers significant value to those working in the manufacturing side of the industry and those who work alongside colleagues from product design in the context of cross-functional teams. Individual modules of this MSc can be studied as short courses.

The programme is very much one of technical engineering content, sitting in a systems engineering framework.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/aero-auto/automotive-systems-engineering/

Course structure and teaching

Students study three compulsory modules, three optional taught modules and carry out an individual project. In total the course comprises 180 modular credits, made up from 6 taught modules valued at 20 credits each, plus the project which is valued at 60 credits.

The course is mostly delivered as a series of block taught modules. An online study support system provides additional information and materials to facilitate learning and discussion. Full time students undertake a University based project and part time students undertake an industry based project.

Assessment: Examination, coursework assignments and project dissertation.

Course features

- Incorporates a systems thinking framework, referring to product lifecycle, target setting, requirements capture and cascade, plus elements of business-related drivers for engineering practice.

- Provides clear links between design and manufacture, for example presenting examples where manufacturing capabilities have a large impact on design and system robustness.

- Develops advanced and specialist themes via the optional modules.

- Expertise provided from industry-based specialists.

- Individual modules can be studied as short courses.

- The MSc course was originally developed in partnership with Ford Motor Company, and we continue to work closely with the automotive industry in designing, developing and delivering our courses.

Compulsory modules

- Manufacturing Systems and Integrated Design
- Vehicle and Powertrain Functional Performance
- Vehicle Systems Analysis
- Project

Optional modules (select three)

- Body Engineering
- Powertrain Calibration Optimisation
- Sustainable Vehicle Powertrains
- Vehicle Dynamics and Control (for full time programme only)
- Vehicle Electrical Systems Integration

Careers and further Study

Graduates work primarily in product design and development groups and are sought after by a wide range of automotive companies. Students that wish to pursue other careers are well-equipped to work in a wide range of sectors within the vehicle industry.

Scholarships

Loughborough University offers five merit based competitive scholarships to the value of 10% of the programme tuition fee for international students applying for the MSc in Automotive Systems Engineering. All students applying for the course will be considered for the scholarship.

Why choose aeronautical and automotive engineering at Loughborough?

The Department of Aeronautical and Automotive Engineering is a specialist centre within one of the UK’s largest engineering universities.

The Department has 37 academic staff and nearly 150 postgraduate students on taught and research programmes. In the Government’s External Subject Review, the Department was awarded an excellent score (23/24) for the quality of its teaching.In the most recent Research Excellence Framework our subject areas featured in the top ten nationally.

- Facilities
The Department has extensive laboratories and facilities including: wind tunnels; anechoic chamber; indoor UAV testing; structures testing facilities; gas-turbine engines; eight purpose-built engine test cells; Hawk aircraft; 6-axis simulator (road and aircraft); chassis dynamometer and numerous instrumented test vehicles.
The Department hosts the Rolls-Royce University Technology Centre (UTC) in Combustion Aerodynamics and the Caterpillar Innovation and Research Centre (IRC) in engine systems.

- Research
The Department has four major research groups working across the technologies of automotive and aeronautical engineering. Each group works on a variety of research topics, ranging from the development of new low emissions combustion systems for gas turbine engines, through to fundamental investigations into the operation of hydrogen powered fuel cells.

- Career prospects
Over 87% of our graduates were in employment and/or further study six months after graduating. The Department has particularly close links with BAE Systems, Bentley, British Airways, Ford Motor Company, Group Lotus, Jaguar Land Rover, JCB, MIRA, Perkins Caterpillar, Rolls-Royce and many tier one automotive suppliers

Find out how to apply here http://www.lboro.ac.uk/departments/aae/postgraduate/apply/

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This course is aimed at engineering graduates who wish to work in the automotive industry, with particular focus on the design, performance and operation of automotive powertrains and vehicle systems. Read more
This course is aimed at engineering graduates who wish to work in the automotive industry, with particular focus on the design, performance and operation of automotive powertrains and vehicle systems.

Our graduates have the technical and managerial skills and expertise that are highly sought after by the automotive industry.

Our course will not only help prepare you for an exciting career in the industry, but it will also help prepare you to continue your studies onto a Doctor of Philosophy research programme.

Many distinction-level graduates from this programme stay on for a PhD, often funded in part by the University of Bath.

Visit the website http://www.bath.ac.uk/engineering/graduate-school/taught-programmes/automotive/index.html

Learning outcomes

By studying our MSc in Automotive Engineering you will:

- Understand the vehicle design process and the operation and performance of important sub-systems
- Analyse current and projected future environmental legislation and the impact this has on the design, operation and performance of automotive powertrain systems
- Analyse in detail the operation and performance indicators of transmission systems, internal combustion engines and after treatment devices.

Collaborative working

The programme includes traditionally taught subject-specific units and business and group-orientated modular work. These offer you the chance to gain experience in design, project management and creativity, while working with students from other subjects.

- Group project work
In semester 2 you undertake a cross-disciplinary group activity for your professional development, simulating a typical industrial work situation.

- Individual project work
In the final semester, you undertake an individual research project directly related to key current research at the University, often commissioned by industry.

Structure

See programme catalogue (http://www.bath.ac.uk/catalogues/2015-2016/me/me-proglist-pg.html#B) for more detail on individual units.

Semester 1 (October-January):
The first semester of our course allows students to choose from a range of fundamental and more advanced lecture courses covering the analysis methods and modelling techniques that are used in the simulation, design and manufacture of modern vehicles and powertrains.

- Five taught units
- Includes coursework involving laboratory or small project sessions
- Typically each unit consists of 22 hours of lectures, may involve a number of hours of tutorials/exercises and laboratory activity and approximately 70 hours of private study (report writing, laboratory results processing and revision for examinations)

Semester 2 (February-May):
In Semester 2 you will study both technical specialist units and project-based units. You will develop your professional understanding of engineering in a research and design context. You will gain analytical and team working skills to enable you to deal with the open-ended tasks that typically arise in practice in present-day engineering.

- The semester aims to develop your professional understanding of engineering in a business environment and is taught by academic staff with extensive experience in industry
- Group projects in which students work in a multi-disciplinary team to solve a conceptual structural engineering design problem, just as an industrial design team would operate
- Individual project preliminary work and engineering project management units

Summer/Dissertation Period (June-September):
The full time summer project gives students the opportunity to develop their understanding of aspects of the automotive material covered in the first semester, through a detailed study related to the research interests and specialisations of a member of the academic staff. The students will often be working as part of a larger group of researchers including postgraduates, research officers and undergraduates and as such have access to the state of the art automotive test facilities within the department.

- Individual project leading to MSc dissertation
- Depending on the chosen area of interest, the individual project may involve theoretical and/or experimental activities; for both such activities students can use the department computer suites and well-equipped and newly refurbished laboratories for experimental work. The individual projects are generally carried out under the supervision of a member of academic staff. A number of industrially-based projects are available to students

Subjects covered

- Heat transfer
- Engineering systems simulation
- Engine & powertrain technologies
- Professional skills for engineering practice
- Vehicle engineering
- Vehicle dynamics & aerodynamics

Career Options

Our MSc graduates now work all over the world in various industries, while a number of them pursue their Doctorates in universities worldwide. Recent graduates have secured jobs as:

- Calibration Engineer, Ford Motor Company Ltd
- Product Engineer, Renault
- Engineering Consultant, D'Appolonia

Companies which have hired our recent graduates include:

British Aerospace
Airbus UK
Intel
Ricardo
Cambstion
Panama Canal Authority
Moog Controls Ltd

About the department

Bath has a strong tradition of achievement in mechanical engineering research and education.

We are proud of our research record: 89% of our research was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

We offer taught MSc students the chance to carry out projects within outstanding research groupings.

Our research impact is wide and we are dedicated to working with industry to find innovative solutions to problems that affect all areas of society.

We are consistently ranked among the UK’s top 10 mechanical engineering departments in the annual league tables.

We believe in producing leaders, not just engineers.

We will give you the edge over your competitors by teaching you how technology fits into commercial settings. You will not only have access to cutting edge science and technology, we will also provide you with the skills you need to manage a workforce in demanding business environments.

For further information visit our departmental website (http://www.bath.ac.uk/mech-eng/pgt/).

Find out how to apply here - http://www.bath.ac.uk/study/pg/apply/

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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 M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. Read more
The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. The course consists of an intense program of lectures and workshops, followed by a short project and dissertation. Extensive use is made of the electronic learning environment "Blackboard" as used by NUI Galway. The course has been accredited by the Institute of Physics and Engineering in Medicine (UK).

Syllabus Outline. (with ECTS weighting)
Human Gross Anatomy (5 ECTS)
The cell, basic tissues, nervous system, nerves and muscle, bone and cartilage, blood, cardiovascular system, respiratory system, gastrointestinal tract, nutrition, genital system, urinary system, eye and vision, ear, hearing and balance, upper limb – hand, lower limb – foot, back and vertebral column, embryology, teratology, anthropometrics; static and dynamic anthropometrics data, anthropometric dimensions, clearance and reach and range of movement, method of limits, mathematics modelling.

Human Body Function (5 ECTS)
Biological Molecules and their functions. Body composition. Cell physiology. Cell membranes and membrane transport. Cell electrical potentials. Nerve function – nerve conduction, nerve synapses. Skeletal muscle function – neuromuscular junction, muscle excitation, muscle contraction, energy considerations. Blood and blood cells – blood groups, blood clotting. Immune system. Autonomous nervous system. Cardiovascular system – electrical and mechanical activity of the heart. – the peripheral circulation. Respiratory system- how the lungs work. Renal system – how the kidneys work. Digestive system. Endocrine system – how hormones work. Central nervous system and brain function.

Occupational Hygiene (5 ECTS)
Historical development of Occupational Hygiene, Safety and Health at Work Act. Hazards to Health, Surveys, Noise and Vibrations, Ionizing radiations, Non-Ionizing Radiations, Thermal Environments, Chemical hazards, Airborne Monitoring, Control of Contaminants, Ventilation, Management of Occupational Hygiene.

Medical Informatics (5 ECTS)
Bio statistics, Distributions, Hypothesis testing. Chi-square, Mann-Whitney, T-tests, ANOVA, regression. Critical Appraisal of Literature, screening and audit. Patient and Medical records, Coding, Hospital Information Systems, Decision support systems. Ethical consideration in Research.
Practicals: SPSS. Appraisal exercises.

Clinical Instrumentation (6 ECTS)
Biofluid Mechanics: Theory: Pressures in the Body, Fluid Dynamics, Viscous Flow, Elastic Walls, Instrumentation Examples: Respiratory Function Testing, Pressure Measurements, Blood Flow measurements. Physics of the Senses: Theory: Cutaneous and Chemical sensors, Audition, Vision, Psychophysics; Instrumentation Examples: Evoked responses, Audiology, Ophthalmology instrumentation, Physiological Signals: Theory Electrodes, Bioelectric Amplifiers, Transducers, Electrophysiology Instrumentation.

Medical Imaging (10 ECTS)
Theory of Image Formation including Fourier Transforms and Reconstruction from Projections (radon transform). Modulation transfer Function, Detective Quantum Efficiency.
X-ray imaging: Interaction of x-rays with matter, X-ray generation, Projection images, Scatter, Digital Radiography, CT – Imaging. Fundamentals of Image Processing.
Ultrasound: Physics of Ultrasound, Image formation, Doppler scanning, hazards of Ultrasound.
Nuclear Medicine : Overview of isotopes, generation of Isotopes, Anger Cameras, SPECT Imaging, Positron Emitters and generation, PET Imaging, Clinical aspects of Planar, SPECT and PET Imaging with isotopes.
Magnetic Resonance Imaging : Magnetization, Resonance, Relaxation, Contrast in MR Imaging, Image formation, Image sequences, their appearances and clinical uses, Safety in MR.

Radiation Fundamentals (5 ECTS)
Review of Atomic and Nuclear Physics. Radiation from charged particles. X-ray production and quality. Attenuation of Photon Beams in Matter. Interaction of Photons with Matter. Interaction of Charged Particles with matter. Introduction to Monte Carlo techniques. Concept to Dosimetry. Cavity Theory. Radiation Detectors. Practical aspects of Ionization chambers

The Physics of Radiation Therapy (10 ECTS)
The interaction of single beams of X and gamma rays with a scattering medium. Treatment planning with single photon beams. Treatment planning for combinations of photon beams. Radiotherapy with particle beams: electrons, pions, neutrons, heavy charged particles. Special Techniques in Radiotherapy. Equipment for external Radiotherapy. Relative dosimetry techniques. Dosimetry using sealed sources. Brachytherapy. Dosimetry of radio-isotopes.

Workshops / Practicals
Hospital & Radiation Safety [11 ECTS]
Workshop in Risk and Safety.
Concepts of Risk and Safety. Legal Aspects. Fundamental concepts in Risk Assessment and Human Factor Engineering. Risk and Safety management of complex systems with examples from ICU and Radiotherapy. Accidents in Radiotherapy and how to avoid them. Principles of Electrical Safety, Electrical Safety Testing, Non-ionizing Radiation Safety, including UV and laser safety.
- NUIG Radiation Safety Course.
Course for Radiation Safety Officer.
- Advanced Radiation Safety
Concepts of Radiation Protection in Medical Practice, Regulations. Patient Dosimetry. Shielding design in Diagnostic Radiology, Nuclear Medicine and Radiotherapy.
- Medical Imaging Workshop
Operation of imaging systems. Calibration and Quality Assurance of General
radiography, fluoroscopy systems, ultrasound scanners, CT-scanners and MR scanners. Radiopharmacy and Gamma Cameras Quality Control.

Research Project [28 ECTS]
A limited research project will be undertaken in a medical physics area. Duration of this will be 4 months full time

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Space Physiology & Health MSc is a unique programme providing training for biomedical scientists & physicians delivered by international experts from academia, contractors and space agencies (eg NASA). Read more
Space Physiology & Health MSc is a unique programme providing training for biomedical scientists & physicians delivered by international experts from academia, contractors and space agencies (eg NASA). Graduates will be equipped through lectures, seminars and extensive laboratory practicals and visits to RAF & Space Agency (ESA & DLR) facilities to serve future manned space expeditions.

Key benefits

- The programme is unique within Europe.

- Has input from professionals within the Space industry.

- Provides experiences with external partners including the Crew Medical Support Office at the European Astronaut Centre in Cologne.

- Located in the heart of London.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/space-physiology-and-health-msc.aspx

Course detail

- Description -

The programme provides opportunities for students to develop and demonstrate knowledge, understanding and skills in the following areas:

- Detailed and in depth knowledge of the physiological effects of the space environment upon humans and of the methods employed to mitigate such effects.

- Provide practical experience in experimentation methods appropriate to investigate the physiological effects of the space environment and those employed to mitigate such effects.

- A knowledge of instrumentation, calibration, data acquisition and the analysis of results whilst applying the appropriate statistical methods.an understanding of the effect of the space environment upon human behaviour and performance.

- An understanding of the effect of the space environment upon human behaviour and performance.

- A detailed knowledge of the practical implications of disease and physical deconditioning in space-faring humans and the practices required to counter and manage such events.

- Knowledge of the characteristics and practices associated with medical and life science research environments in space.

- Course purpose -

The aim of this programme is to provide graduates with advanced theoretical and practical training in the physiology, psychology and operational medicine of humans exposed to or working in the Space environment.

- Course format and assessment -

Full-time study: Approximately 20 hours of taught classes per week with some entire weeks spent at research establishments in the UK and abroad. Part-time study: Not offered. The programme will comprise lectures, tutorials and seminars with a large practical component. The latter will provide personal experience and experimental studies of a wide variety of Space relevant environments including flight, acceleration, heat and cold, noise, and spatial disorientation. Modules are assessed by coursework and/or examinations. The 10,000 word dissertation (with 10+5 min oral presentation) aims to facilitate student research in the labs of world renowned supervisors in space agencies, academia and industry across the globe.

Career prospects

The programme provides a range of multidisciplinary skills and will help those wishing to pursue a career in human physiology in its broadest sense, either in academic research i.e. PhD, in industry, in Ministry of Defence research laboratories or National/International Space agencies including ESA.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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This modular course has core units in Irish Archaeology in a Global Perspective (20 credits), Landscape Palaeoecology (20 credits), Topics in Archaeology and Environment and a Dissertation (60 credits, over the summer). Read more
This modular course has core units in Irish Archaeology in a Global Perspective (20 credits), Landscape Palaeoecology (20 credits), Topics in Archaeology and Environment and a Dissertation (60 credits, over the summer). The rest of the modules (20 credits each) are from the Dating and Chronology programme which include Chronology Methods and Application (dendrochronology, tephrochronology and radiocarbon dating and calibration including Bayesian analysis), Practical 14C dating and Chronology Analysis and Modeling . It thus allows genuinely specialist preparation for doctoral study or professional development, and makes full use of the excellent resources available.

The programme is available as 1-year full-time or 2-year part-time. All taught elements may also be taken in clusters of 60 CATS points as CPD units for a Postgraduate Certificate.

The programme may appeal to students with a general interest in theoretical, scientific-environmental or practical archaeology, landscape conservation, planning and environment and heritage. It is designed to provide a base for further research training and as a foundation for career development in specialised or general archaeology and environmental-palaeoecological work. Participants will be trained in a range of key technical, methodological, theoretical practical and transferable skills in the compulsory units and these will be extended in the electives. Students will develop advanced skills in their electives and Dissertation, which they will choose to meet their interests and career development.

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In this practical, week long course you'll develop the skills that are associated with undertaking a risk assessment of noise exposures in the workplace. Read more

Why choose this course:

• In this practical, week long course you'll develop the skills that are associated with undertaking a risk assessment of noise exposures in the workplace.
• You'll gain knowledge and understanding of the Control of Noise at Work Regulations 2005, and associated guidance documents.
• You'll develop your knowledge of fundamental noise control methods.
• We're one of the leading centres in delivering short courses in noise, with over 20 years of experience.

About the course:

If you're a health and safety manager or work within health and safety, this course is for you. It's also increasingly popular with people working in noise consultancies.

The course will start on a Monday and will take five days to complete. You'll take a practical exam on the Friday. There's also a written exam that is normally held on a Friday about two weeks after the course.

We've divided the course into six key areas:

Basic concepts of noise

You'll receive an overview of the basic definitions and principles of sound, noise indices and units, and learn how to undertake basic calculations involving decibels.

Measurement and instrumentation for noise assessment

You'll go through the basic features and properties of an integrating sound level meter, the calibration of meters and the properties of a dosimeter.

Noise exposure assessment

You'll review measurement strategies, including the limitations of data collection and the calculation of personal noise exposure levels.

Hearing, hearing loss measurement and protection

You'll focus on the structure of the ear and the hearing mechanism, and review hearing defects and their social implications. You will also look at the types of hearing protectors, their limitations and advantages, and their performance.

Overview of legal aspects

It's vital to be up to date with legislation so you'll consider primary legislation (Health and Safety at Work Act 1974) and other regulations and codes of practice. You'll also review the Control of Noise at Work Regulations 2005.

Noise reduction techniques

You'll look at the basic methods of noise control in the workplace, from its source to its transmission path and, finally, to the receiver.

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Computer Science is one of the drivers of technological progress in all economic and social spheres. Those graduating with an M.Sc. Read more

About Computer Science

Computer Science is one of the drivers of technological progress in all economic and social spheres. Those graduating with an M.Sc. in Computer Science are specialists in at least one field of computer science who have wide-ranging science-based methodological expertise.
Graduates are able to define, autonomously and comprehensively, computer science problems and their applications, structure them and build abstract models. Moreover, they are able to define and implement solutions that are at the state of the art of technology and science.

Features

– A broad, international and relevant selection of courses
– As a student, you will work on cutting-edge research projects
– Individual guidance in small learning groups
– Excellent enterprise relations maintained by the chairs and institutes
– Numerous partnerships with universities throughout the world, including a double degree programme with the Institut national des sciences appliquées de Lyon (INSA)

Syllabus

The programme offers the following five focus modules:
1) Algorithms and Mathematical Modelling
2) Programming and Software Systems
3) Information and Communication Systems
4) Intelligent Technical Systems
5) IT Security and Reliability
1) Algorithms and Mathematical Modelling: This module teaches you about determinstic and stochastic algorithms, their implementation, evaluation and optimisation. You will acquire advanced knowledge of computer-based mathematical methods – particularly in the areas of algorithmic algebra and computational stochastics – as well as developing an in-depth expertise in mathematical modelling and complexity analysis of discrete and continuous problems.
2) Programming and Software Systems: This module imparts modern methods for constructing large-scale software systems, as well as creating and using software authoring, analysis and optimisation tools. In this module you will consolidate your knowledge of the various programming paradigms and languages, the structure of language processing systems, and learn to deal with parallelism in program procedures.
3) Information and Communication Systems: In this module you will study the interactions of the classic computer science areas of information systems and computer networks. This focus area represents an answer to the problem of increasing volume and complexity of worldwide information distribution and networks, and for the growing requirements on quality and performance of computer communication. Additionally, you will learn to transfer database results to multimedia data.
4) Intelligent Technical Systems: In this module you are acquainted with digital image and signal processing, embedded systems and applications of intelligent technical systems in industrial and assistance systems, which are necessary for production automation and process control, traffic control, medical and building technology. You will learn to develop complex applications using computer systems and deal with topics such as image reconstruction, camera calibration, sensor data fusion and optical measurement technology.
5) IT Security and Reliability: This module group is concerned with security and reliability of IT systems, e.g. in hardware circuitry and communication protocols, as well as complex, networked application systems. To ensure the secure operation of these systems you will learn design methodology, secure architectures and technical implementation of the underlying components.

Language requirements

Unless English is your native language or the language of your secondary or undergraduate education, you should provide an English language certificate at level B2 CEFR, e.g. TOEFL with a minimum score of 567 PBT, 87 iBT or ITP 543 (silver); IELTS starting from 5.5; or an equivalent language certificate.

To facilitate daily life in Germany, it would be beneficial for you to have German language skills at level A1 CEFR (beginner’s level). If you do not have any German skills when starting out on the programme, you will complete a compulsory beginner’s German course during your first year of study.

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This qualification gives you the skills to undertake excellent research. You will learn general research skills (project planning, statistics, field & lab techniques) as well as skills specific to your research project. Read more
This qualification gives you the skills to undertake excellent research. You will learn general research skills (project planning, statistics, field & lab techniques) as well as skills specific to your research project. Alongside this training, you will undertake post-graduate level research under the supervision of an expert in the institute.

With over 200 members of staff you will have a lot of flexibility in the area of research you choose to study. The breadth of expertise in the institute means that you can undertake research in any one of several specialisations including, zoology, plant breeding, microbiology, bioinformatics, animal science, equine or marine life & ecology. Visit our Research Groups page to find the area that matches your interests: http://www.aber.ac.uk/en/ibers/research/research-groups/

Every step of our research is carried out with the indispensable help of postgraduate students. No matter which area of biology you specialise in, you will be working alongside some of the world’s biggest names in their respective fields.

See the website http://courses.aber.ac.uk/postgraduate/biosciences-masters-research/

Course detail

Students on the MRes will be uniquely placed for a bioscience research career in the public or private sector. The course makes an ideal stepping-stone for those considering PhD research and offers opportunity to explore your interest in the biosciences in depth.

This innovative course provides high quality, interdisciplinary research training in the skills you will need during your individual Research Dissertation. The key feature here is that you are able to explore an area of Bio Science that fascinates you with personalised support and supervision. The course is flexible to your interests and focused on your chosen research specialism.

Studying at Aberystwyth University

- What are the facilities like?

We have excellent research facilities including aquariums (marine, freshwater, tropical), a bioinformatics hub, ion-torrent sequencers, and extensive glass house facilities. We operate several farms and own significant tracts of natural woodland. Our coastal location close to several nature reserves & national parks offers unique opportunities for a broad range of bioscience research.

- What are the support networks like?

All postgraduate students in IBERS have a personal tutor, a point of contact within the department to which students can turn to discuss personal or domestic concerns that impact on their studies. The personal tutor is a different person from their dissertation supervisor

- Why should I study an MRes in Bio Science at Aberystwyth University?

The Institute of Biological, Environmental and Rural Sciences (IBERS) combines world leading research in areas such as zoology, grassland science, biochemistry, animal science, marine biology, microbiology, plant biology and ecology with industry standard training. As a postgraduate research student at Aberystwyth you benefit from world leading research and teaching facilities, and supervision all in a safe, friendly and vibrant coastal town in a beautiful location on the West coast of Wales. These assets make Aberystwyth an excellent choice for students looking to combine lifestyle choice with an internationally recognised degree from a leading institute.

Format

The modules in the programme provide a fundamental basis for understanding and working in biological research. Your knowledge will be developed and you will be intellectually challenged by research within your own area of specialism – dependent on your choice of research project. Key skills, particularly those of communication, research, IT and problem solving, will be developed through formative (e.g. discussion with and feedback from your research supervisor) as well as assessed coursework programmes which will be accompanied by detailed feedback on performance.

Assessment

The programme comprises 180 credits. There are 60 credits of taught modules completed during Semester 1 and Semester 2. A research dissertation (120 credits) is carried out throughout the year.

Employability

This course suits students with an undergraduate degree in any bioscience field who wish to develop their knowledge and research skills through working with experts in IBERS. It is suitable for students who do not want to commit to 3 years of PhD research or for those who would like to develop their research skills and take time to find their ideal research focus first. It is also suitable for students that would like to combine research with a taught element of a postgraduate taught course. On completion of the degree scheme, students will be able to:

· Design, apply and analyse various research/study techniques.
· Plan, conduct, and report on investigations, including the use of secondary data.
· Collect and record information or data in the library, laboratory or field, summarizing it using appropriate qualitative and/or quantitative techniques.
· Conceive, plan and undertake field and/or laboratory investigations in a responsible, ethical and safe manner, paying due attention to risk assessment, legislation concerning experimental animal use, relevant health and safety regulations, other legal requirements and sensitivity to the impact of investigations on the environment and stakeholders.
· Communicate effectively with individuals and organisations in a range of scenarios.
· Write for a range of audiences including academics and the wider public.
· Apply appropriate management and experimental techniques to a range of situations.

An MRes graduate would be able to demonstrate experience and capabilities such as;

· Receiving and responding to a variety of sources of information: textual, numerical, verbal, graphical;
· Communicating about their subject appropriately
· Citing and referencing work in an appropriate manner;
· Sample selection; recording and analysing data in the field and/or the laboratory; validity, accuracy, calibration, precision, repeatability and uncertainty during collection;
· Preparing, processing, interpreting and presenting data, using appropriate qualitative and quantitative techniques, statistical programmes, spreadsheets and programs for presenting data visually;
· Solving problems by a variety of methods including the use of computers;
· Using the internet and other electronic sources critically as a means of communication and a source of information.
· Developing the skills necessary for self-managed and lifelong learning (eg working independently, time management and organisation skills);
· Identifying and working towards targets for personal, academic and career development;
· Developing an adaptable, flexible, and effective approach to study and work.

Find out how to apply https://www.aber.ac.uk/en/postgrad/howtoapply/
Information on fees is found here https://www.aber.ac.uk/en/postgrad/fees-finance/non-eu/taught/ and https://www.aber.ac.uk/en/postgrad/fees-finance/uk-eu/taught/

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