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Masters Degrees (Clean Tech)

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The MSc in Clean Tech Entrepreneurship will provide clean tech manager of the future with an understanding of the challenges involved in the management of companies in the clean technology sector specifically; Renewable Energy and Energy Efficiency, Water Treatment and Management and Waste Management and Resource Efficiency. Read more
The MSc in Clean Tech Entrepreneurship will provide clean tech manager of the future with an understanding of the challenges involved in the management of companies in the clean technology sector specifically; Renewable Energy and Energy Efficiency, Water Treatment and Management and Waste Management and Resource Efficiency. The course will also introduce students on what entrepreneurs should look for to bring their technology to successful commercialisation.

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MSc Climate Change, Management & Finance is a challenging programme based on the increasing range of issues faced by business leaders. Read more
MSc Climate Change, Management & Finance is a challenging programme based on the increasing range of issues faced by business leaders. The programme focuses on the area of climate change and sustainability, such as energy efficiency, risk management and insurance, financing future ventures and innovation or reducing carbon emissions.

You will gain technical expertise in finance, economics, innovation, management, marketing and strategy to help you develop an understanding of the challenges and opportunities raised by climate change and the interrelations between these two areas. Armed with deep quantitative and technical knowledge, you will be an asset for successful organisations from a wide variety of sectors, whether large corporations or SMEs, established industrial firms or technological ventures, either in sustainability focused roles or broader business management roles.

The Programme

The programme comprises core modules from a range of subject areas. Given the need to understand the relationship between its two components, the programme has been designed to embed within each module both the business and the sustainability/climate change/ carbon aspect of a topic.

These 13 core modules include:
• Business Economics, Climate Change and the Environment
• Change Management and Leadership
• Clean Tech Innovation and Investment
• Climate Change and Governance
• Corporate Finance and Carbon Finance
• Energy Economics and Strategy
• Financial and Carbon Accounting and Reporting
• Impacts and Adaptation to Climate Change
• Marketing and Sustainability
• Mitigating Climate Change
• Quantitative Methods
• Risk Management and Climate Change
• The Science of Climate Change

These modules are taught over three academic terms, and you will benefit from a balance between teaching and learning through a mix of lectures, seminars, external speakers, discussions group exercises and case studies. Assessment will combine examination, group and individual reports and presentations.

In addition to the core modules, you will have the choice during the summer to undertake either a Group Consultancy Project for a real client or a Work Placement. In both cases, you may also choose to do your project or work placement abroad.

Your final assessment will consist of a 5,000 word Capstone Individual Report. This report will help you put the theory taught in the programme modules into practice, linking your experience on the Group Consulting Project or Work Placement.

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This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world. Read more
This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world.

It is aimed at engineers and natural scientists pursuing or wishing to pursue a career in the renewable energy sector, particularly those in technical positions e.g. systems designers, technical consultants and R&D engineers and scientists.

Core study areas include solar power, wind power, water power, biomass, sustainability and energy systems, integration of renewables and a research project.

Optional study areas include advanced solar thermal, advanced photovoltaics, advanced wind, energy storage, energy system investment and risk management.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

Programme modules

Compulsory Modules:
- Solar Power
- Wind Power 1
- Water Power
- Biomass
- Sustainability and Energy Systems
- Integration of Renewables
- Research Project

Optional Modules (choose three):
- Advanced Solar Thermal
- Advanced Photovoltaics
- Wind Power 2
- Energy Storage
- Energy System Investment and Risk Management

How will you learn

You can select options to develop a chosen specialism in greater depth, including through your individual project which is often carried out with renewable energy companies or alongside the research portfolio of our international experts.

This is a very practical course backed up by strong theoretical understanding of the principles and facts behind renewable energy production.

Assessment is via a mixture of written and practical coursework and examinations. The individual research project is also assessed by viva. Because of its multidisciplinary nature, assessment may be done in collaboration with academic colleagues from Civil Engineering, Mechanical Engineering and Materials.

Facilities

We have current industrial equipment and laboratories for PV cell production, PV module production, qualification testing, PV quality control, energy storage research facilities, vacuum glazing, wind flow measurement, and instrumentation for energy consumption and monitoring.

You will benefit from experience with industrial tools and software for system design (e.g. PV Syst, WASP, ReSoft Windfarm, DNV GL Windfarmer), materials research hardware (e.g. pilot lines for commercial solar cell production) and quality control laboratories.

This enables you to acquire the practical skills that industry uses today and builds the foundations for developing your knowledge base throughout their career.

Careers and further study

There is a world-wide shortage of skilled engineers in this field and so the combination of hands on experience with global industry standard tools and techniques and the strong theoretical knowledge which graduates of this course acquire, makes them highly attractive to employers.

Students may carry out their projects as part of a short-term placement in a company and graduates of this course are often fast-tracked in their applications. Consequently we have an extensive network of alumni, many in top jobs.

Why choose electronic, electrical and systems engineering at Loughborough?

We develop and nurture the world’s top engineering talent to meet the challenges of an increasingly complex world. All of our Masters programmes are accredited by one or more of the following professional bodies: the IET, IMechE, InstMC, Royal Aeronautical Society and the Energy Institute.

We carefully integrate our research and education programmes in order to support the technical and commercial needs of society and to extend the boundaries of current knowledge.

Consequently, our graduates are highly sought after by industry and commerce worldwide, and our programmes are consistently ranked as excellent in student surveys, including the National Student Survey, and independent assessments.

- Facilities
Our facilities are flexible and serve to enable our research and teaching as well as modest preproduction testing for industry.
Our extensive laboratories allow you the opportunity to gain crucial practical skills and experience in some of the latest electrical and electronic experimental facilities and using industry standard software.

- Research
We are passionate about our research and continually strive to strengthen and stimulate our portfolio. We have traditionally built our expertise around the themes of communications, energy and systems, critical areas where technology and engineering impact on modern life.

- Career prospects
90% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as Accenture, BAE Systems, E.ON, ESB International, Hewlett Packard, Mitsubishi, Renewable Energy Systems Ltd, Rolls Royce and Siemens AG.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

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The Imperial MBA is a transformational experience to shape you into one of tomorrow’s leaders. Joining an intimate class of students, your experience is tailored to your own career objectives, combining your aspiration and vision with our unique learning experience. Read more
The Imperial MBA is a transformational experience to shape you into one of tomorrow’s leaders. Joining an intimate class of students, your experience is tailored to your own career objectives, combining your aspiration and vision with our unique learning experience.

On this one year programme you will study core modules to build your foundation in business, and then shape your own elective and project portfolio to suit your personal academic and career ambitions.

The programme

An MBA allows you to develop the skills and qualities necessary to be a true business leader. The core modules build rapidly on your previous experience, while introducing new and challenging disciplines. You will cover the general functions of management, explore essential business topics and acquire the skills to be an effective and inspiring leader.

Electives allow you to specialise in areas of particular interest, developing your expertise with your future career objectives in mind.
Supported by our own experienced faculty, many of the electives include guest lecturers from industry and other academic institutions who impart their unique insights and real-world experience to the class. The elective portfolio includes:

Finance-
• Behavioural Finance
• Advanced Corporate Finance
• Mergers and Acquisitions
• Private Equity

Innovation and Entrepreneurship-
• Managing and Valuing Intellectual Property
• Venture Capital Finance
• Design Management
• Clean Technology/Investment

Strategy and Management-
• International Business
• Breakout Strategy
• Hi-tech Strategy
• Business Strategy, Corporate Social Responsibility and Sustainability
• Managing Negotiations
• Managing Infrastructure Projects
• Globalisation
• Management Challenges in Healthcare
• Leadership

Analytics and Digital Marketing-
• Brand Management
• Pricing Strategy
• Social Media
• Consumer Behaviour

Alongside your core modules and electives, the Imperial MBA includes a variety of activities designed to develop your communication and presentation skills, team work and awareness of the business world and the nature of leadership.

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The Imperial Executive MBA programme is designed for senior executives wishing to accelerate their career whilst continuing to excel in a demanding job. Read more
The Imperial Executive MBA programme is designed for senior executives wishing to accelerate their career whilst continuing to excel in a demanding job.

The 23 month programme is designed to give you a thorough knowledge of all the essential business disciplines, as well as opportunities to specialise in areas that will directly benefit your chosen career path. You will graduate with a unique grasp of leading innovation in the workplace.

During year one you will attend lectures at our campus in South Kensington, London for two days every three – four weeks. In the second year of study, you will complete your electives, Final Project and Global Immersion Week.

Core Modules

All Executive MBA students study nine core modules, which will provide a broad understanding of the areas deemed essential to be an informed and strategic business leader in today’s competitive business landscape. These include:
• Accounting and Corporate Reporting Analysis
• Corporate Finance
• Corporate Innovation and Entrepreneurship
• Global Macroeconomics
• Managerial Economics
• Marketing Management
• Organisational Behaviour
• Responsible Leadership and Corporate Success
• Strategy

Electives

The MBA elective portfolio consists of approximately 25 options which provide you with the opportunity to specialise in an area of particular interest or to explore new avenues, based on your individual experience and career aspirations. You will choose six electives from the following list:

Innovation and Entrepreneurship
• Design Management
• Managing and Valuing Intellectual Property

Finance
• Advanced Company Valuation
• Advanced Corporate Finance
• Behavioural Finance
• Private Equity
• Venture Capital Finance

Marketing
• Brand Management
• Consumer Behaviour
• International Business
• Social Media

Strategic management
• Breakout Strategy
• Globalisation
• Leadership
• Managing Negotiations
• Managing Organisational Change
• Mergers and Acquisitions
• Operations Management
• Pricing Strategy
• Strategic Consulting Skills
• Strategic Corporate Social Responsibility and Sustainability

Sector-specific
• Clean Technology/Investment
• High-Tech Strategy
• Management Challenges in Healthcare
• Managing Infrastructure Projects

Final Project

The Final Project is an opportunity to create value for your employer in a tangible and measurable way as a culmination of your learning experience. It is an independent piece of work, where you will deliver a piece of consultancy with high strategic impact.

Global Immersion Week

The Global Immersion Week is an opportunity for you to see business in action in another region of the world. As an integral part of the Executive MBA programme, this experience allows you to immerse yourself in the business environment of a specific country, such as Argentina, Brazil or China.

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Study the dynamic field of efficient information transfer around the globe. We teach this course jointly with the Department of Computer Science so you get up-to-date knowledge and understanding. Read more

About the course

Study the dynamic field of efficient information transfer around the globe. We teach this course jointly with the Department of Computer Science so you get up-to-date knowledge and understanding.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Network and Inter-Network Architectures; Network Performance Analysis; Data Coding Techniques for Communications and Storage; Advanced Communication Principles; Mobile Networks and Physical Layer Protocols; (either) Foundations of Object-Orientated Programming (or) Object-Orientated Programming and Software Design; Major Research Project.

Examples of optional modules

Computer Security and Forensics; 3D Computer Graphics; Software Development for Mobile Devices; Cloud Computing; Advanced Signal Processing; Antennas, Propagation and Satellite Systems; Optical Communication Devices and Systems; Computer Vision; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols; System Design.

Teaching and assessment

We deliver research-led teaching from our department and Computer Science with individual support for your research project and dissertation. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications. Read more

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Semiconductor Materials; Principles of Semiconductor Device Technology; Packaging and Reliability of Microsystems; Nanoscale Electronic Devices; Energy Efficient Semiconductor Devices; Optical Communication Devices and Systems; Compound Semiconductor Device Manufacture; Major Research Project.

Teaching and assessment

Research-led teaching, lectures, laboratories, seminars and tutorials. A large practical module covers the design, manufacture and characterisation of a semiconductor component, such as a laser or light emitting diode. This involves background tutorials and hands-on practical work in the UK’s national III-V semiconductor facility. Assessment is by examinations, coursework or reports, and a dissertation with poster presentation.

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Study the key design aspects of a modern wireless communication system, in particular cellular mobile radio systems. There is a current shortage of communications engineers with a comprehensive appreciation of wireless system design from RF through baseband to packet protocols. Read more

About the course

Study the key design aspects of a modern wireless communication system, in particular cellular mobile radio systems. There is a current shortage of communications engineers with a comprehensive appreciation of wireless system design from RF through baseband to packet protocols.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices
LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Advanced Signal Processing; Advanced Communication Principles; Antennas, Propagation and Satellite Systems; Mobile Networks and Physical Layer Protocols; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols; Major Research Project.

Examples of optional modules

Data Coding Techniques for Communication and Storage; Optical Communication Devices and Systems; Computer Vision; Electronic Communication Technologies; Data Coding Techniques for Communication and Storage.

Teaching and assessment

Research-led teaching and an individual research project. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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Electronic and Electrical Engineering is a broad and rapidly-expanding set of disciplines. Read more

About the course

Electronic and Electrical Engineering is a broad and rapidly-expanding set of disciplines. Building on core teaching in electrical machines, electronic materials, and the way that electronic circuits interact, this course will allow you to choose from a wide range of optional modules from all our active research areas to tailor your learning in a way that meets with your requirements.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Major Research Project.

Examples of optional modules

AC Machines; Advanced Control of Electric Devices; Energy Storage Management; Motion Control and Servo Drives; Permanent Magnet Machines and Actuators; Power Electronic Converters; Power Semiconductor Devices; Advanced Computer Systems; Advanced Integrated Electronics; Advanced Signal Processing; Semiconductor Materials; Principles of Semiconductor Device Technology; Packaging and Reliability of Microsystems; Nanoscale Electronic Devices; Energy Efficient Semiconductor Devices; Optical Communication Devices and Systems; Computer Vision; Electronic Communication Technologies; Data Coding Techniques for Communications and Storage; Principles of Communications; Antennas, Propagation and Satellite Systems; Mobile Networks and Physical Layer Protocols; System Design; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols.

Teaching and assessment

We deliver research-led teaching with individual support for your research project and dissertation. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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The deployment of power electronic converters and electrical machines continues to grow at a rapid rate in sectors such as hybrid and all-electric vehicles, aerospace, renewables and advanced industrial automation. Read more

About the course

The deployment of power electronic converters and electrical machines continues to grow at a rapid rate in sectors such as hybrid and all-electric vehicles, aerospace, renewables and advanced industrial automation. In many of these applications, high performance components are combined into sophisticated motion control and energy management systems. This course will give you a rigorous and in-depth knowledge of the key component technologies and their integration into advanced systems.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Power Electronic Converters; AC Machines; Permanent Magnet Machines and Actuators; Motion Control and Servo Drives; Advanced Control of Electric Drives; Energy Storage and Management; MSc Individual Project; Major Research Project.

Examples of optional modules

Power Semiconductor Devices; Advanced Signal Processing; Packaging and Reliability of Microsystems; Electronic Communication Technologies; Systems Design.

Teaching and assessment

You’ll learn through research-led teaching, lectures, laboratories, seminars, tutorials and coursework exercises. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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Over the course of 21 months the Imperial Weekend MBA will provide you with a solid understanding of core business disciplines, and also present opportunities to specialise in areas that reflect your personal interests and career aspirations. Read more
Over the course of 21 months the Imperial Weekend MBA will provide you with a solid understanding of core business disciplines, and also present opportunities to specialise in areas that reflect your personal interests and career aspirations. Whether your motivation for completing an MBA is to accelerate your career within your current sector, or to make a career transition into a new role or industry, our Weekend MBA will provide you with plenty of opportunities to make these ambitions a reality.

The programme

Throughout the Weekend MBA you will have regular interaction with your peers at lectures at our campus in South Kensington, London. The programme requires you to take between 27–37 days out of the office in a 21 month period, depending on the electives chosen.

During the first year on the programme you will cover two blocks of core modules. In the second year of study, you will complete your electives, Final Project and Global Experience Week.

Core modules

The core modules will build rapidly on your previous experience, while introducing new and challenging disciplines. You will cover the general functions of management, explore essential business topics and acquire the skills to be an effective and inspiring leader in whatever career you choose. These include:
• Corporate Finance
• Decision Analytics
• Finance and Management Accounting
• Global Macroeconomics
• Innovation and Entrepreneurship
• Managerial Economics
• Marketing Management
• Organisational Behaviour
• Strategy

Electives

The MBA elective portfolio consists of approximately 25 courses across a number of subject areas.You can choose to study six electives, or five electives plus the Entrepreneurship Journey. If you wish, you can also apply to join a further two electives, for which you will not be assessed. These include:

Innovation and Entrepreneurship
• Design Management
•Managing and Valuing Intellectual Property

Finance
•Advanced Company Valuation
•Advanced Corporate Finance
•Behavioural Finance
•Private Equity
•Venture Capital Finance

Marketing
•Brand Management
•Consumer Behaviour
•International Business
•Social Media

Strategic management
•Breakout Strategy
•Strategic Corporate Social Responsibility and Sustainability
•Globalisation
•Leadership
•Managing Negotiations
•Managing Organisational Change
•Mergers and Acquisitions
•Operations Management
•Pricing Strategy
•Strategic Consulting Skills

Sector-specific
•Clean Technology/Investment
•High-Tech Strategy
•Management Challenges in Healthcare
•Managing Infrastructure Projects

Final project

The final project is an independent piece of work where you will demonstrate that you are able to address a specific theme in an autonomous way and bring together your learning across different subjects. This project will be your ‘business card’ to show that you are able to provide a valuable and holistic view of a topical theme.

Global Experience Week

The Global Experience Week is an opportunity to immerse yourself in the business environment of another country. Together with the rest of your class you will visit local and global companies, and meet Business School alumni based in that country. The Global Experience Week is an intensive exploration of a country’s business practices and challenges using company visits to learn through practical case studies.

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