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NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Mechanical Engineering. Read more
NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Mechanical Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

Engineering is a major wealth creator for the UK and many other economies worldwide. Highly qualified engineers command a high salary and are much sought after. This course will provide you with significant skills in the major engineering functions allowing you to work in a senior technical or project management role within industry.

Course content

The course consists of 8 taught modules plus a major personal project leading to a written thesis. The taught modules cover the broad range of activities involved in designing and validating new products and machinery. You will study topics such as solid and surface modelling, rapid prototyping, Finite Element Analysis, advanced materials and thermodynamics. The subject area of your final thesis can be selected to suit your own aspirations and interests. You will be assigned a supervisor with whom you will work closely to develop an academically challenging portfolio of work.

Core modules are:
-Research Methods & Project Management
-Design Technologies for Masters
-Energy Management
-Structural Integrity
-Advanced Engineering Materials
-Applied Structural Integrity
-MSc

Project Option Modules are:
-Industrial Robotics & Control
-Control System
-Sustainable Design & Manufacture
-Industrial Placement

This course can be completed within 1 year. However this timescale is dependent on students starting the course in September, passing all modules, undertaking their project during the summer semester and experiencing no other delays (such as health issues). Many students choose to delay their project start and enjoy a well-deserved summer break to ‘re-charge their batteries’ which also has academic benefits. In this case a more realistic duration is 15 months.

Accreditation

Accredited by the Institute of Mechanical Engineers and the Institution of Engineering and Technology on behalf of the Engineering Council (partial CEng). The MSc will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng(Hons) accredited for CEng will be able to show that they have satisfied the educational base for CEng registration.

Employment opportunities

Upon graduation you will be ideally placed to work in a manufacturing or engineering company at a senior level working towards Chartered (CEng) status. If you prefer the course also gives a good grounding in research techniques which could allow you to continue your personal research interests to PhD level.

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Mechatronics is a unique study area that integrates mechanical, electronic and control engineering to create the complex systems that underpin modern automated processes. Read more
Mechatronics is a unique study area that integrates mechanical, electronic and control engineering to create the complex systems that underpin modern automated processes. The course provides coherent and up to date coverage of Mechatronics with specialist modules available in Mechanical, Electronic and Robotics areas. The approach spans specification and design to realisation, with particular emphasis on the application of industry standard CAD tools and DSP devices to develop solutions to practical engineering problems.

NOTE Are you a student from outside the EU? If you are we have designed a version of this award especially for you! It is called the Extended International Master in Mechatronics. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success.

Course content

The course consists of a taught programme followed by an individual project. The taught programme is based on eight modules. Normally these modules are taken over two semesters for the full time route. The individual project is then studied over a further semester to complete the Masters Award.

Semester 1 runs from September to January and Semester 2 from February to June. Study of the MSc normally commences in September. This course has an industrial placement route.

Core modules are:
-Design Technologies for Master
-Research Methods & Project Management
-Embedded Real Time Systems
-MSc Project

Option Modules are:
-Energy Management
-Photovoltaic Technology
-Digital Electronic Systems
-Digital Signal Processing
-Applied Structural Integrity
-Structural Integrity
-Control Systems
-Advanced Engineering Materials
-Sustainable Design & Manufacture

“This course can be completed within 1 year. However this timescale is dependent on students starting the course in September, passing all modules, undertaking their project during the summer semester and experiencing no other delays (such as health issues). Many students choose to delay their project start and enjoy a well-deserved summer break to ‘re-charge their batteries’ which also has academic benefits. In this case a more realistic duration is 15 months for September starters and 18 months for January starters.”

Employment opportunities

Future option for graduates include employment in local, national and international industries normally initially in Research and Development roles although many progress to management positions. Alternatively graduates may choose to pursue further academic qualifications and register for a PhD programme.

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The global challenges of climate and energy require new technologies for renewable energy sources, methods of energy storage, efficient energy use, new lightweight vehicular structures, techniques for carbon capture and storage and climate engineering. Read more
The global challenges of climate and energy require new technologies for renewable energy sources, methods of energy storage, efficient energy use, new lightweight vehicular structures, techniques for carbon capture and storage and climate engineering. This is a broad-based MSc, designed for graduates who wish to acquire skills in energy and materials science in order to participate in the emerging challenges to meet climate change targets.

Degree information

Students gain an advanced knowledge of materials science as it applies to energy and environmental technologies and research skills including information and literature retrieval, critical interpretation and analysis, and effective communication. They can benefit from modules in chemistry, physics, chemical engineering or mechanical engineering, thus offering future employers a wide-ranging skills base. Graduates will be well qualified to deal with the problems of energy decision-making and the implications for the environment.

Students undertake modules to the value of 180 credits. The programme consists of five core modules (90 credits), two optional modules (15 credits each) and a research project (60 credits). An exit-level only Postgraduate Diploma (120 credits) is available. An exit-level only Postgraduate Certificate (60 credits) is available.

Core modules - students take all of the following, totalling 90 credits, and a 60 credit research dissertation.
-Advanced Topics in Energy Science and Materials
-Microstructural Control in Materials Science
-Energy Systems and Sustainability
-Transferable Skills for Scientists
-Research Project Literature Review

Optional modules - students take 30 credits drawn from the following:
-Climate and Energy
-Materials and Nanomaterials
-Electrical Power Systems and Alternative Power Systems
-Atom and Photon Physics
-Solid State Physics
-Mastering Entrepreneurship

Dissertation/report
All MSc students undertake an independent research project which culminates in a dissertation of approximately 10,000 words, an oral presentation and a viva voce examination (60 credits).

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, laboratory classes and research supervision. Assessment is through unseen written examination and coursework. The literature project is assessed by written dissertation and oral presentation, and the research project is assessed by a written report, an oral presentation and a viva voce examination.

Careers

The UK has committed to 80% reduction in CO2 emissions on a 1990 baseline by 2050. CERES, the organisation that represents the largest institutional investors would like to see 90% reduction by 2050. National Systems of Innovation (NSI), which includes the universities, research centres and government departments working in conjunction with industry, will need to apprehend new opportunities and change direction, diverting personnel to energy and climate issues in response to changing markets and legislation. This MSc will contribute to the supply of personnel needed for the era of sustainability.

Top career destinations for this degree:
-Process Innovation Executive, Samsung Electronics UK
-Chemical Engineer, Jing Eong Fang
-Research Intern, CECP
-PhD Nanomaterials, University of Oxford
-PhD Sugar Chemistry, Monash University

Why study this degree at UCL?

This programme is designed for graduates from a wide range of science and engineering backgrounds who wish to broaden their knowledge and skills into materials science with an emphasis on the energy and climate change issues that will drive markets over the next century. It delivers courses from five departments across three faculties depending on options and includes a self-managed research project which is intended to introduce the challenges of original scientific research in a supportive environment.

Research activities span the whole spectrum of energy-related research from the development of batteries and fuel cells to the prediction of the structure of new water-splitting catalytic materials.

Students develop experience in scientific method, techniques for reporting science and in the many generic skills required for a future career.

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This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability. Read more
This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability.

By the time you graduate, you will have a thorough understanding of sustainability standards, various renewable energies, smart grid and power electronics for renewable energy and energy use management in buildings, urban design and other areas. Research on sustainable energy technology has opened up many job opportunities in industry, government institutions and research centres.

What are benefits of the programme?

• studying at international university recognised throughout the world
• close cooperation with world-famous universities and research centres to solve major technical challenges including energy crises and environmental pollution
• excellent research opportunities, using advanced experimental equipment including a network analyser, power analyser, Dspace controller, wind turbine and PV testing system
• continuous development of core modules to meet the requirement of industrial innovation
• cutting-edge research in the intelligent and efficient utilisation of solar, wind energy and other renewable energy sources

Lab Facilities

Power electronics laboratory equipped with advanced experimental equipment
• Sustainable energy laboratory equipped with advanced experimental equipment including a 600W wind turbine, two 270W solar modules, batteries, an inverter with sinusoidal output and main controller
• Electric machine and power system laboratory

Modules

• Sustainable Energy and Environment
• Nuclear Energy Technology
• Power System Network and Smart Grid
• Integration of Energy Strategies in the Design of Buildings
• Photovoltaic Energy Technology
• Renewable Kinetic Energy Technologies
• Power Electronics and Applications for Renewable Energy
• Sustainable Urban Planning Strategies
• Msc Project

What are my career prospects?

Graduates of this programme will typically work on professional tasks including the implementation of sustainable energy technologies within existing or new systems, and modelling and evaluation of the impact on ecosystems, economics and society. Graduates may be employed as electric power system engineers, electric power system consultants, sustainable technology consultants, electric power projects managers, sustainable cities and building design consultants, managers and team leaders in government.

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The MSc in Principles of Applied Neuropsychology examines the uses of neuropsychology in the clinical world. Studying the way the brain works is crucial to psychology and the understanding of human behaviour. Read more
The MSc in Principles of Applied Neuropsychology examines the uses of neuropsychology in the clinical world. Studying the way the brain works is crucial to psychology and the understanding of human behaviour.

Neuropsychology is central to the debate about the spark of individuality each human shows. This course looks at social cognition and affective neuroscience, as well as studying the emerging field of the neuropsychology of psychopathology. The course is an employability-centred extension to an undergraduate psychology degree. It is focused on Neuropsychology, but is suitable for any student interested in preparing for an eventual career as a professional psychologist.

COURSE STRUCTURE AND CONTENT

The course has four 30-credit core modules and a 60-credit dissertation module. These modules are Neuropsychology, Social Neuropsychology of Mental Health, Neuropsychological Rehabilitation and Issues in Professional Practice. To gain the MSc you must complete all four taught modules and the dissertation module. There is also a Postgraduate Certificate, gained by successfully completing two taught modules, and a Postgraduate Diploma for the successful completion of four taught modules. The course runs on one afternoon a week to allow you time to obtain relevant practical experience, should you wish to do so. You can study on a full-time or part-time basis, subject to a maximum of three years full-time or five-years part-time for the MSc.

MODULES

Issues in Professional Practice
This module introduces students to the principles of applied psychology and the processes of recovery and rehabilitation. It focuses on the core skills expected of a practitioner of applied psychology: assessment; formulation; intervention; evaluation; communication skills; and self-management skills. The embedded research skills in this module relate to the evaluation of clinical practice.

Social Neuropsychology of Mental Health
This module includes a neuropsychological perspective on mental health problems. It features a series of lectures on psychosis, affective disorders, fear disorders, principles of cognitive behavioural therapy, and basic pharmacology. We also be looking at the relationship between psychopathology and criminality. The embedded research methods deal with applications to ethics committees, and performing a systematic literature review.

Advanced Neuropsychology
This module provides a clinical approach to degenerative disorders, ageing, communication disorders visual disorders, and childhood developmental disorders. The module focuses on the functions and dysfunctions of the frontal lobes, including the concepts of self and other. The embedded research methods include researching a patient population, and using test batteries.

Neuropsychological Rehabilitation
Neuropsychological rehabilitation exists to enable people to regain their footing in social and occupational spheres after brain injury. It does this in many ways, such as emotionally, functionally and cognitively. This module offers a broad theoretical perspective of the different methods of rehabilitation available for a range of disorders. We aim to provide not just theory but also guidance as to how you communicate that theory to patients, clients and other professionals.

Dissertation
This is the opportunity to investigate an area of neuropsychology of individual interest. As part of this module you are required to submit a 5,000-7,000 word paper ready for publication in a specified journal, based on your research. You also have to demonstrate the ability to keep a detailed research log. The research undertaken by students must have a neuropsychological focus.

TEACHING METHODS AND RESOURCES

Teaching methods include lectures, seminars, individual tutorials, small and large group work, lab work and neuropsychological testing experience. There will be guest speakers from relevant employers as well as research talks from existing practitioners.

CAREER OPPORTUNITIES

The course is centred on eventual employment as a professional psychologist. We aim to enhance your skills as a scientist- practitioner, and provide a step forward to meeting the criteria for assistant psychologist posts. The course also offers practical writing skills necessary for communicating complex scientific ideas to both a lay and specialist audience. The course is also suitable for people considering a research PhD.

ASSESSMENT METHODS

We have selected assessments with the aim to maximise experiences that will help with further study. For example, the dissertation element must be written in the form of a paper that is ready for submission in an established journal. In fact, we will encourage the submission of a research paper as the culmination of the Master’s experience. We also offer assessments in less formal writing for magazines or newspapers. We aim to consolidate your literature searching skills, something that is crucial to get right for a PhD thesis and for writing grant proposals.

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Electrochemistry and its application in electrochemical engineering is an increasingly important area of science and technology, with relevance to energy (batteries, fuel cells and solar cells), corrosion, sensors, waste treatment, metal finishing and the electronics industry. Read more

Summary

Electrochemistry and its application in electrochemical engineering is an increasingly important area of science and technology, with relevance to energy (batteries, fuel cells and solar cells), corrosion, sensors, waste treatment, metal finishing and the electronics industry. This new programme will provide students with a background in both the fundamental and applied aspects of electrochemistry, enabling them to pursue a variety of rewarding careers.

Visit our website for further information...



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The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Read more
The MPhil is offered by the Department of Chemistry as a full-time period of research and introduces students to research skills and specialist knowledge. Students are integrated into the research culture of the Department by joining a research group, supervised by one of our academic staff, in one of the following areas of Chemistry:

Biological:

with a focus on enzymes, nucleic acids, protein folding and misfolding, and physical techniques; with relevance to health and disease, drug discovery, sensors, nanotechnology, ageing and energy research applications.

Materials Chemistry:

including surfaces, interfaces, polymers, nanoparticles and nanoporous materials, self assembly, and biomaterials, with applications relevant to: oil recovery and separation, catalysis, photovoltaics, fuel cells and batteries, crystallization and pharmaceutical formulation, gas sorption, energy, functional materials, biocompatible materials, computer memory, and sensors.

Physical Chemistry:

including atmospheric sciences, surfaces and interfaces, materials, and physical and chemical aspects of the behaviour of biopolymers and other soft systems.

Synthetic Chemistry:

including complex molecule synthesis, synthetic catalysis, synthetic assembly, synthetic biology and medicine, new technology for efficient synthesis, green synthesis, and preparation of new materials.

Theory, Modelling and Informatics:

including quantum dynamics, modelling soft materials, protein folding and binding, biomolecules in motion, pharmacological activity, molecular switches, redox chemistry, designing bioactive molecule and drugs, chemical biology, crystallography, and simulation of spectroscopic studies.

Potential supervisors and their area of research expertise may be found at Department of Chemistry (Research): http://www.ch.cam.ac.uk/research

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

Course detail

Educational aims of the MPhil programme:

- to give students with relevant experience at first degree level the opportunity to carry out focussed research in the discipline under close supervision; and

- to give students the opportunity to acquire or develop skills and expertise relevant to their research interests and a broader set of transferable skills.

Learning Outcomes

By the end of the programme, students will have:

- a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;
- demonstrated originality in the application of knowledge, together with a practical understanding of how research and enquiry are used to create and interpret knowledge in their field;
- shown abilities in the critical evaluation of current research and research techniques and methodologies;
- demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Format

The MPhil involves minimal formal teaching. Students may attend the Department's programme of research seminars and other graduate courses, including the Transferable Skills programme that forms part of the PhD programme. Informal opportunities to develop research skills also exist through mentoring and other opportunities by fellow students and members of staff. However, most research training is provided within the research group structure and all students are assigned a research supervisor.

All graduate students receive termly reports written by their supervisors.

Assessment

The scheme of examination for the MPhil in Chemistry shall consist of a thesis, of not more than 15,000 words in length, exclusive of tables, footnotes, bibliography, and appendices, on a subject approved by the Degree Committee for the Faculty of Physics and Chemistry, submitted for examination at the end of 11 months. The examination shall include an oral examination on the thesis and on the general field of knowledge within which it falls. The thesis shall provide evidence to satisfy the Examiners that a candidate can design and carry out investigations, assess and interpret the results obtained, and place the work in the wider perspectives of the subject.

Continuing

The Department offers a PhD in Chemistry course and MPhil students can apply to continue as a graduate student on this course.

MPhil students currently studying a relevant course at the University of Cambridge will need to pass their MPhil course (if examined only by thesis) or obtain a minimum merit (if there is a marked element) in order to be eligible to continue onto the PhD in Chemistry.

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

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

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

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