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This MSc course has been developed for the Jaguar Land Rover Technical Accreditation Scheme. The course is available on a part time basis, taking typically four years to complete. Read more
This MSc course has been developed for the Jaguar Land Rover Technical Accreditation Scheme.

The course is available on a part time basis, taking typically four years to complete. Students take 12 Assessed Modules over 3 years, 5 of which are Core (C) and 7 Optional (O), plus a project on a SSE topic within the automotive domain (over the final year). See the Project tab for more details.

This modular MSc is designed to prepare students for work in the demanding field of Safety Systems Engineering (SSE) by exposing them to the latest science and technology within this field. In the core module phase, the course focuses on the principles and practices in SSE across a range of domains, including automotive. In the optional module phase, the course focuses on specialist SSE and automotive topics. The projects are also designed to consider SSE topics within an automotive context.

The discipline of SSE developed over the last half of the twentieth century. It can be viewed as a process of systematically analysing systems to evaluate risks, with the aim of influencing design in order to reduce risks, i.e. to produce safer products and services. In mature industries, such as aerospace and nuclear power, the discipline has been remarkably successful, although there have been notable exceptions to the generally good safety record, e.g. Fukushima, Buncefield and the Heathrow 777 accident.

Various trends pose challenges for traditional approaches to SSE. For example, classical hazard and safety analysis techniques deal poorly with computers and software where the dominant failure causes are errors and oversights in requirements or design. Thus these techniques need extending and revising in order to deal effectively with modern systems. Also, in our experience, investigation of issues to do with safety of computer systems have given some useful insights into traditional system safety engineering, e.g. into the meaning of important concepts such as the term hazard. The optional modules allow students to investigate such areas as the contribution of software, human factors or operational factors within an automotive engineering context in more depth.

Learning Outcomes
The course aims to provide participants with a thorough grounding and practical experience in the use of state-of-the-art techniques for development of safety critical systems, together with an understanding of the principles behind these techniques so that they can make sound engineering judgements during the design, deployment and operation of such systems. Graduates completing the course will be equipped to participate in safety-critical systems engineering related aspects of industry and commerce.

New areas of teaching will be developed in response to new advances in the field as well as the requirements of the organisations that employ our graduates.

The course aims to equip students with knowledge, understanding and practical application of the essential components of System Engineering, to complement previously gained knowledge and skills. A York System Safety Engineering with Automotive Applications graduate will have a knowledge and understanding of the essential areas, as represented by the core modules, knowledge and understanding on a number of specialist topics, as represented by the optional modules. and an ability to identify issues with the safety process in a particular project, identify responses to this gap and evaluate the proposal, as represented by the project.

Transferable Skills
Information-retrieval skills are an integrated part of many modules; students are expected to independently acquire information from on-line and traditional sources. These skills are required within nearly all modules.

Numeracy is required and developed in some modules. Time management is an essential skill for any student in the course. The formal timetable has a substantial load of lectures and labs. Students must fit their private study in around these fixed points. In addition, Open Assessments are set with rigid deadlines which gives students experience of balancing their time between the different commitments.

All students in the University are eligible to take part in the York Award in which they can gain certified transferable skills. This includes the Languages for All programme which allows students to improve their language skills.

Projects

The MSc System Safety Engineering with Automotive Applications project for part-time students is 60 credits in length:
-Literature survey on a subject to determine the state of the art in that area
-A gap in the state of the art identified in the first part is addressed, a proposal made and evidence provided for the proposal. This project is completed in September of a student's fourth year

The Project(s) enable(s) students to:
-Demonstrate knowledge of an area by means of a literature review covering all significant developments in the area and placing them in perspective
-Exhibit critical awareness and appreciation of best practice and relevant standards
-Investigate particular techniques and methods for the construction of safe systems, possibly involving the construction of a prototype
-Evaluate the outcome of their work, drawing conclusions and suggesting possible further work in the area

The project(s) address(es) a technical problem concerned with real issues in the automotive domain. It should, if possible, include the development and application of a practical method, technique or system. It is a natural progression from the taught modules, and builds on material covered in them. It addresses the problem from an automotive system safety perspective, including hardware, software or human factors. It will typically have an industrial flavour, students are encouraged, with the help of their managers and academic staff, to select a project which is relevant to their own work.

The project begins at the start of the Autumn term after completion of the taught modules, and lasts 12 months part-time. There are three weeks attendance at York during the project, for progress assessment and access to library facilities: in October near the start of the project; and in the following January and July.

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Contemporary business environments are marked by continuous and rapid change. Organizations, regardless of age, size, or industry, need to identify and pursue new opportunities for value creation. Read more
Contemporary business environments are marked by continuous and rapid change. Organizations, regardless of age, size, or industry, need to identify and pursue new opportunities for value creation. Are you curious about what challenges this brings? Would you like to take an active role in creating and developing future business opportunities for such organizations?

The MSc in Business & Management (MBM) will develop the managerial knowledge and skills needed to excel in today’s organizations. The program will prepare you to proficiently act and to make decisions in highly uncertain and complex environments.
These contexts require innovative marketing campaigns, new product development processes, transformation projects, dynamic strategies and organizations. These are fundamental means for both nascent entrepreneurial ventures and established corporations that strive to maintain their edge through ongoing renewal.

Program content and pedagogy

The MBM program is based on a live pedagogy, where most of the learning occurs through real-life projects, internships and practical experience. You will work with real challenges faced by real stakeholders, who expect sound analyses and actionable solutions. These outcomes will be achieved by putting into action the theories and methods learned in class. Running in parallel to the courses, a skills track focusing on personal and social development will nurture your ability to manage yourself and the people around you.

The core curriculum of the program builds on the academic disciplines of management and marketing. These disciplines offer vital tools for next-generation managers who need to combine creativity and innovative thinking with market analyses and communication strategies, to manage projects and drive change within and across organizations, and to integrate knowledge from different fields and social networks.

An exclusive program for highly talented students

The MBM program offers an intimate learning environment that stimulates critical thinking, open debate, developmental feedback, close relationships, and fruitful contacts that will remain useful throughout each student’s future career. The faculty is passionately committed to each student’s learning: they bring to class the academic rigor of their research together with concrete insights on contemporary business issues, stemming from their ongoing conversation with various stakeholders.

All in all, the program rests on a vision of future leaders who are creative, entrepreneurial, reflective, and responsible. The challenges linked to global sustainability offer tremendous opportunities to such leaders. If you aim to be one of them, the MBM is the right path to realize your ambitions.

SSE and Stockholm – A unique location for business creation and development

By focusing on business creation and development, the program makes full use of SSE’s and Stockholm’s distinctive advantages. SSE is the leading business school in the Nordics and has a long tradition of close links with the business community. SSE is a key academic hub in the Swedish economic system and with initiatives like the Stockholm School of Entrepreneurship (http://www.sses.se) and the SSE Business Lab, it will continue to be a preferred provider of business talents to the leading companies of the future.

In the same way, the Stockholm region is not only ranked number one for innovation, intellectual capital, sustainability, and safety, but it is also globally celebrated as an entrepreneurial ‘hotspot’, constantly giving birth to new groundbreaking ventures, from Skype to Spotify and from King.com to Acne.

Entry requirements:

Bachelor degree
in any field of studies with at least 30 ECTS in Business Administration.
A limited number of places in the program (up to 10%) are set aside for exceptional candidates with a bachelor degree in any field of studies but less than 30 ECTS in Business Administration. Such candidates should show extraordinary talent and outstanding achievements in areas like academia, work experience, culture, sports and societal contribution.
Admitted applicants with a bachelor degree in subjects other than Business Administration or Economics are required to complete a specific one week pre-program at SSE prior to their studies (in August). The pre-program is designed to give students key foundations in Business Administration.

GMAT or GRE
GMAT (total score) of 600 or more.
GRE score (quantitative) of 155 or more.
For both formats the recommended score for Analytical Writing part - in the range of 4.5-5.0 or higher.

Proficiency in English
IELTS Academic score at least 7
TOEFL iBT total score at least 100

English language test exemptions (ONLY THESE CASES):
English as native language
Bachelor’s degree from a program conducted completely in English
Qualifications “English B” from Swedish upper secondary school (ONLY Swedish schools).

Motivation & supporting attachments
Relevant work experience and extracurricular activities may be taken into account.

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The MSc in International Business (incl. CEMS MIM) provides you with the tools to master the challenges of management and strategy in global organizations. Read more
The MSc in International Business (incl. CEMS MIM) provides you with the tools to master the challenges of management and strategy in global organizations. The program combines advanced analytical training with active learning in real projects together with SSE and CEMS corporate partners.

You will work on an advanced level with topics focused on running and developing global organizations. Strategy and marketing tools are used to put the firm in context and explore how firms influence their competitive environments. You will also learn how to make firms grow and prosper from the inside, through innovations and management practices that build operational excellence.

Leadership and teamwork in multi-cultural contexts is studied as well as practiced through live projects and group work, and reflected upon through interaction with executives. Ethics and CSR are integrated in several courses to mirror the integrated role it should have in everyday decision-making. Language and skills training provides the essential management communication tools needed for your future work.

In the program you will work with real, “live” projects together with corporate partners of SSE and of CEMS.

Through the combination of topics covered in the program, you will acquire a deep and integrated understanding of how international firms and other organizations function, how to navigate them to achieve results, and, last but not least, how to improve them and the things they do.

The CEMS Master in International Management is fully integrated into the program. Upon fulfilling the graduation requirements of SSE and of CEMS, you will be awarded both a Master of Science degree from SSE and a Master degree from CEMS, the prestigious global alliance of management education.

Entry requirements:

Bachelor degree
with at least 90 ECTS in Social Sciences or Humanities (including but not limited to Business Administration, Economics, Finance, Political Science, Psychology and/or Sociology), with a minimum of 30 ECTS in Business Administration.

GMAT or GRE
GMAT (total score) of 600 or more.
GRE score (quantitative) of 155 or more.
For both formats the recommended score for Analytical Writing part - in the range of 4.5-5.0 or higher.

Proficiency in English
IELTS Academic score at least 7
TOEFL iBT total score at least 100
CAE score at least B
CPE score at least C
BEC score at least B
SSE course 108/109 grade at least C

English language test exemptions (ONLY THESE CASES):
English as native language
Bachelor’s degree from a program conducted entirely (100%) in English in one of CEMS member schools or EQUIS/AACSB accredited schools or in an English-speaking country.

Proficiency in another language
You have to list all the languages that you know, this will be taken into consideration during the assessment.

Motivation & supporting attachments
CV
Letter of motivation
A ranking of the ten CEMS schools (http://www.cems.org/academic-members/our-members/list/) you prefer for your semester abroad
A passport size photo

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Upgrade is possible to the Diploma SCSE and MSc SCSE courses. This modular postgraduate Certificate course is designed to prepare students for work in the demanding field of Systems Safety Engineering (SSE) by exposing them to the latest science and technology within this field. Read more
Upgrade is possible to the Diploma SCSE and MSc SCSE courses.

This modular postgraduate Certificate course is designed to prepare students for work in the demanding field of Systems Safety Engineering (SSE) by exposing them to the latest science and technology within this field. The discipline of SSE has developed over the last half of the twentieth century. It can be viewed as a process of systematically analysing systems to evaluate risks, with the aim of influencing design in order to reduce risks, i.e. to produce safer products. In mature industries, such as aerospace and nuclear power, the discipline has been remarkably successful, although there have been notable exceptions to the generally good safety record, e.g. Fukushima, Buncefield and the Heathrow 777 accident.

Various trends pose challenges for traditional approaches to SSE. For example, classical hazard and safety analysis techniques deal poorly with computers and software where the dominant failure causes are errors and oversights in requirements or design. Thus these techniques need extending and revising in order to deal effectively with modern systems. Also, in our experience, investigation of issues to do with safety of computer systems have given some useful insights into traditional system safety engineering, e.g. into the meaning of important concepts such as the term hazard. The optional module allows students to investigate such areas as the contribution of software, human factors or operational factors to SSE in more depth.

Learning Outcomes

The course aims to provide participants with a preliminary grounding and practical experience in the use of state-of-the-art techniques for development of safety critical systems, together with an understanding of the principles behind these techniques so that they can make sound engineering judgements during the design and deployment of such a system. Graduates completing the course will be equipped to participate and in safety-critical systems engineering related aspects of industry and commerce.

New areas of teaching will be developed in response to new advances in the field as well as the requirements of the organisations that employ our graduates.

The course aims to equip students with knowledge, understanding and practical application of the essential components of System Engineering, to complement previously gained knowledge and skills. A York System Safety Engineering graduate will have a preliminary knowledge and understanding of the essential areas, as represented by the core modules.

Transferable Skills

Information-retrieval skills are an integrated part of many modules; students are expected to independently acquire information from on-line and traditional sources. These skills are required within nearly all modules.

Numeracy is required and developed in some modules. Time management is an essential skill for any student in the course. The formal timetable has a substantial load of lectures and labs. Students must fit their private study in around these fixed points. In addition, Open Assessments are set with rigid deadlines which gives students experience of balancing their time between the different commitments.

All students in the University are eligible to take part in the York Award in which they can gain certified transferable skills. This includes the Languages for All programme which allows students to improve their language skills.

Read less
This modular advanced Diploma course is designed to prepare students for work in the demanding field of Safety Systems Engineering (SSE) by exposing them to the latest science and technology within this field. Read more
This modular advanced Diploma course is designed to prepare students for work in the demanding field of Safety Systems Engineering (SSE) by exposing them to the latest science and technology within this field. The discipline of SSE has developed over the last half of the twentieth century. It can be viewed as a process of systematically analysing systems to evaluate risks, with the aim of influencing design in order to reduce risks, i.e. to produce safer products. In mature industries, such as aerospace and nuclear power, the discipline has been remarkably successful, although there have been notable exceptions to the generally good safety record, e.g. Fukushima, Buncefield and the Heathrow 777 accident.

Various trends pose challenges for traditional approaches to SSE. For example, classical hazard and safety analysis techniques deal poorly with computers and software where the dominant failure causes are errors and oversights in requirements or design. Thus these techniques need extending and revising in order to deal effectively with modern systems. Also, in our experience, investigation of issues to do with safety of computer systems have given some useful insights into traditional system safety engineering, e.g. into the meaning of important concepts such as the term hazard. The course therefore offers a number of optional modules looking at software safety.

Learning Outcomes

The course aims to provide participants with a thorough grounding and practical experience in the use of state-of-the-art techniques for development of safety critical systems, emphasising their software; together with an understanding of the principles behind these techniques so that they can make sound engineering judgements during the design and deployment of such a system, particularly when software is involved. Graduates completing the course will be equipped to play leading and professional roles in safety-critical systems engineering related aspects of industry and commerce. New areas of teaching will be developed in response to new advances in the field as well as the requirements of the organisations that employ our graduates.

The course aims to equip students with knowledge, understanding and practical application of the essential components of Safety Critical Systems Engineering, to complement previously gained knowledge and skills in Computer Science. A York Safety Critical Systems Engineering graduate will have a solid grounding of knowledge and understanding of the essential areas, as represented by the core modules. The optional modules give students the opportunity to gain knowledge in other areas which are of interest to them and which are taught by recognized experts in those areas.

Transferable Skills

Information-retrieval skills are an integrated part of many modules; students are expected to independently acquire information from on-line and traditional sources. These skills are required within nearly all modules.

Numeracy is required and developed in some modules. Time management is an essential skill for any student on the course. The formal timetable has a substantial load of lectures and labs. Students must fit their private study in around these fixed points. In addition, Open Assessments are set with rigid deadlines which gives students experience of balancing their time between the different commitments.

All students in the University are eligible to take part in the York Award in which they can gain certified transferable skills. This includes the Languages for All programme which allows students to improve their language skills.

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The SSE MBA is a challenging, small and exclusive program that prepares you to take on new leadership challenges. It stands for real learning, broadened perspectives and professional development with impact. Read more
The SSE MBA is a challenging, small and exclusive program that prepares you to take on new leadership challenges. It stands for real learning, broadened perspectives and professional development with impact. The program is ranked by the Financial Times as 1st in the Nordic and Baltic regions in 2009. Since 2001, the year the Financial Times began its Executive MBA ranking, the SSE Executive MBA has been the first in the Nordic league.

For more information, go to http://www.hhs.se

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"The course structure and the core modules cover the fundamentals of system safety in such depth and breadth as to be applicable to any safety standard, for example the ISO 26262. Read more
"The course structure and the core modules cover the fundamentals of system safety in such depth and breadth as to be applicable to any safety standard, for example the ISO 26262. I chose the modules Human Factors for Safety Critical Systems and Computers and Safety and believe this to be a very good combination for anybody working in the automotive industry. Unlike previous degree courses I refer to my York notes a great deal since they are extremely relevant to my day to day safety activities.”
Robert, Jaguar Land Rover

“As a clinician, I have found this course to be absolutely essential. I would recommend that anyone working in healthcare with an interest in patient safety should take the Foundations of System Safety Engineering module at the very least. For those who have a more focused safety role, particularly in healthcare technology, the University offers a number of modules to choose from, working up to the award of a Postgraduate Certificate, Diploma or MSc Safety Critical Systems Engineering.”
Beverley, Department of Health Informatics Directorate

The discipline of SSE has developed over the last half of the twentieth century. It can be viewed as a process of systematically analysing systems to evaluate risks, with the aim of influencing design in order to reduce risks, i.e. to produce safer products. In mature industries, such as aerospace and nuclear power, the discipline has been remarkably successful, although there have been notable exceptions to the generally good safety record, e.g. Fukushima, Buncefield and the Heathrow 777 accident.

Various trends pose challenges for traditional approaches to SSE. For example, classical hazard and safety analysis techniques deal poorly with computers and software where the dominant failure causes are errors and oversights in requirements or design. Thus these techniques need extending and revising in order to deal effectively with modern systems. Also, in our experience, investigation of issues to do with safety of computer systems have given some useful insights into traditional system safety engineering, e.g. into the meaning of important concepts such as the term hazard. The course therefore has a number of optional modules looking at software safety.

Learning Outcomes

The course aims to provide you with a thorough grounding and practical experience in the use of state-of-the-art techniques for development and operation of safety critical systems, together with an understanding of the principles behind these techniques so that you can make sound engineering judgements during the design, deployment and operation of such a system. On completing the course, you will be equipped to play leading and professional roles in safety-critical systems engineering related aspects of industry and commerce.

New areas of teaching are developed in response to new advances in the field as well as the requirements of the organisations that employ our graduates.

We aim to equip you with the knowledge, understanding and practical application of the essential components of Safety Critical Systems Engineering, to complement previously gained knowledge and skills. As a York Safety Critical Systems Engineering graduate, you will have a solid grounding of knowledge and understanding of the essential areas, as represented by the core modules. The optional modules give you the opportunity to gain knowledge in other areas which are of interest and these are taught by recognised experts in those areas.

Transferable Skills

Information-retrieval skills are an integrated part of many modules; you are expected to independently acquire information from on-line and traditional sources. These skills are required within nearly all modules, are an essential part of project work.

Numeracy is required and developed in some modules. Time management is an essential skill for any student on the course. The formal timetable has a substantial load of lectures and practical sessions. You are expected to fit your private study in around these fixed points. In addition, Open Assessments are set with rigid deadlines, so you must balance your time between the different commitments.

All students in the University are eligible to take part in the York Award in which they can gain certified transferable skills. This includes the Languages for All programme which allows students to improve their language skills.

Projects

For both full-time and part-time students, the project(s) enable(s) students to:
-Demonstrate knowledge of an area by means of a literature review covering all significant developments in the area and placing them in perspective;
-Exhibit critical awareness and appreciation of best practice and relevant standards;
Investigate particular techniques and methods for the construction of safe systems, possibly involving the construction of a prototype;
-Evaluate the outcome of their work, drawing conclusions and suggesting possible further work in the area.

The project(s) address(es) a major technical problem concerned with real issues. It should, if possible, include the development and application of a practical method, technique or system. It is a natural progression from the taught modules, and builds on material covered in them. Ideally it addresses the problem from a system perspective, including hardware, software and human factors. It will typically have an industrial flavour. If you are a part-time student, you are encouraged, with the help of your managers and academic staff, to select a project which is relevant to your own work in industry.

The project begins at the start of the Summer term after completion of the taught modules, and lasts 18 months part-time / 6 months full-time. For part-time students there are three weeks attendance at York during the project, for progress assessment and access to library facilities: in July near the start of the project; and in the following January and July. Full details are provided during the course.

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The Master’s Programme in Economics offers an extensive economic education. The studies focus on the theoretical and empirical analysis of economic relationships and convey the academic knowledge required for analysing economic problems and evaluating economic policy strategies. Read more
The Master’s Programme in Economics offers an extensive economic education. The studies focus on the theoretical and empirical analysis of economic relationships and convey the academic knowledge required for analysing economic problems and evaluating economic policy strategies. A flexible curriculum offers a great deal of leeway to shape your studies in line with your own talents, interests and goals. A solid understanding of the fundamentals and appealing specialisations provide the basis for a wide range of professional fields and a successful start to your career.

Curriculum

You will have to acquire 90 ECTS for your MEcon degree. The course takes three semesters (1.5 years). Education in economics largely follows international standards, both in terms of subject matter and with regard to the standards that are aimed at. Compulsory subjects focus on core issues of economics, thus allowing you to select a large part of the core subjects and two thirds of the Master’s programme according to your own interests and skills.

Compulsory subjects:
• Advanced Microeconomics I / II / III
• Advanced Macroeconomics I / II / III
• Econometrics I
• Mathematics

Core elective and elective courses are enriched by the various research interests of the faculty members involved. Depending on individual interests, students can attend courses from other Master’s programmes, primarily from Banking and Finance, International Affairs and Governance, and Law and Economics, and thus create their own optional specialisations:
• International Economy
• Government and the Economy
• Work, Population and Health
• Finance and Capital Markets
• Enterprises and Markets

During your studies, you will have to write a Master’s thesis, which deals with an economic topic and is thus related to your core studies. In Contextual Studies, you will have to attend courses in Leadership Skills, Critical Thinking and Cultural Awareness and thus develop transdisciplinary competencies.

Exchange and double degrees

MEcon students can apply for a double degree programme. This will provide you with the possibility of obtaining an additional full-scale Master’s degree from SSE Stockholm, CBS Copenhagen, ESADE Barcelona, Groupe HEC Paris, Erasmus University in Rotterdam or Bocconi in Milan after 2–2.5 years of successful studies. The double degree programmes with SSE and CBS are offered exclusively for our students. You can also apply for the CEMS MIM – Master’s in International Management double degree. In the context of the exchange programme of the University of St.Gallen, you are also able to spend an exchange semester at one of the 190 partner universities worldwide.

Career perspectives

A MEcon degree provides the foundations in economic theory and empirical tools that are required to understand and Analyse economic relationships and processes and to develop solutions to policy problems. Application-oriented empirical tools Support your capacity in strategic decision- making processes. With such abilities, you enjoy substantial advantages with regard to starting a career with a wide range of possibilities. Not only public and international institutions, but also private firms, banks and insurance companies are interested in MEcon graduates. Reputable consulting firms regularly employ well-trained economists too.

Fast-track Pd.D.

If you attain the necessary grade average and fulfil the requirements, the programme will provide you with access to the Ph.D. Programme in Economics and Finance (PEF). You will already be able to earn credits for the PEF during the Master’s programme and thus complete your doctoral studies in fast-track mode.

Language

The MEcon is taught both in English and in German. Central basic courses are offered in English jointly with the MiQE/F (Master in Quantitative Economics and Finance). This guarantees consistent mutual openness of electives and enables students to select courses according to their specializations and interests.

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This course recognises the need for skilled graduates to address the world’s major issues in electrical energy and power systems. Read more

Why this course?

This course recognises the need for skilled graduates to address the world’s major issues in electrical energy and power systems. It offers an integrated programme focusing on:
- the design, operation and analysis of power supply systems
- power plant
- renewables and industrial electrical equipment relating to a liberalised power supply industry
- globalised markets and environmental drivers

The course provides the advanced level of knowledge and understanding required for challenging, well paid and exciting careers in the dynamic and high growth electrical power and renewable energy sectors.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/electricalpowerengineeringwithbusiness/

You’ll study

There’s two semesters of compulsory and optional classes, followed by a three-month summer research project in your chosen area. There’s the opportunity to carry this out through the department's competitive MSc industrial internships.

The internships are offered in collaboration with selected department industry partners, including ScottishPower, Smarter Grid Solutions and SSE. You'll address real-world engineering challenges facing the partner, with site visits, access and provision of relevant technical data and/or facilities provided, along with an industry mentor and academic supervisor.

Facilities

You'll have exclusive access to our extensive computing network and purpose built teaching spaces, including our outdoor test facility for photovoltaics high voltage laboratory, equipped with the latest technologies, including:
- LDS 6-digital partial discharge test & measurement system
- Marx impulse generators & GIS test rigs
- £1M distribution network and protection laboratory comprising a 100kVA microgrid, induction machines and programme load banks

You'll have access to the UK’s only high-fidelity control room simulation suite and the Power Networks Demonstration Centre (PNDC). This is Europe’s first centre dedicated to the development and demonstration of “smart-grid” technologies.

Accreditation

The course is fully accredited by the professional body, the Institution of Engineering and Technology (IET).

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

We use a blend of teaching and learning methods including interactive lectures, problem-solving tutorials and practical project-based laboratories. Our technical and experimental officers are available to support and guide you on individual subject material.
Each module comprises of approximately five hours of direct teaching per week. To enhance your understanding of the technical and theoretical topics covered in these, you're expected to undertake a further five to six hours of self-study, using our web-based virtual learning environment (MyPlace), research journals and library facilities.
The teaching and learning methods used ensure you'll develop not only technical engineering expertise but also communications, project management and leadership skills.
You'll undertake group projects. These will help to develop your interpersonal, communication and transferable skills essential to a career in industry.

- Industry engagement
Interaction with industry is provided through our internships, teaching seminars and networking events. The department delivers monthly seminars to support students’ learning and career development. Iberdrola, National Grid, ScottishPower, SSE, Siemens and Rolls-Royce are just a few examples of the industry partners you can engage with during your course.

Assessment

A variety of assessment techniques are used throughout the course. You'll complete at least six modules. Each module has a combination of written assignments, individual and group reports, oral presentations, practical lab work and, where appropriate, an end-of-term exam.

Assessment of the summer research project/internship consists of four elements, with individual criteria:
1. Interim report (10%, 1500 to 3000 words) – The purpose of this report is to provide a mechanism for supervisors to provide valuable feedback on the project’s objectives and direction.

2. Poster Presentation (15%) – A vital skill of an engineer is the ability to describe their work to others and respond to requests for information. The poster presentation is designed to give you an opportunity to practise that.

3. Final report (55%) – This assesses the communication of project objectives and context, accuracy and relevant of background material, description of practical work and results, depth and soundness of discussion and conclusions, level of engineering achievement and the quality of the report’s presentation.

4. Conduct (20%) - Independent study, project and time management are key features of university learning. The level of your initiative & independent thinking and technical understanding are assessed through project meetings with your supervisor and your written logbooks.

Careers

The course provides the advanced level of knowledge and understanding required for challenging, well paid and exciting careers in the dynamic and high growth electrical power and renewable energy sectors.
Employment prospects are excellent, with recent graduates operating in power engineering consultancy, global power utilities (generation, supply and distribution), the renewable energy sector and manufacturing. They've taken up professional and technical positions as electrical engineers, power systems specialists, distribution engineer and asset managers in large energy utilities such as ScottishPower Energy Networks, Aker Solutions, National Grid & EDF Energy. Graduates have also taken up roles in project management and engineering consultancy with companies such as Arup, Atkins Global, Ramboll, Moot MacDonald and AMEC.

How much will I earn?

Salaries for electrical engineers start at around £20,000 to £25,000. Experienced or incorporated engineers can earn between £28,000 and £40,000. A chartered electrical engineer can earn higher salaries of £40,000 to £55,000 or more.*

*information is intended only as a guide. Figures taken from Prospects.

Find information on Scholarships here http://www.strath.ac.uk/engineering/electronicelectricalengineering/ourscholarships/.

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Our Software Systems Engineering (SSE) MSc provides an ideal foundation for PhD study. The UCL SSE group is regularly ranked in the top three groups in the world (Microsoft Academic Search), you will be taught by those who are setting the international agenda, and our research has been repeatedly rated as world-class. Read more
Our Software Systems Engineering (SSE) MSc provides an ideal foundation for PhD study. The UCL SSE group is regularly ranked in the top three groups in the world (Microsoft Academic Search), you will be taught by those who are setting the international agenda, and our research has been repeatedly rated as world-class. Fully-funded PhD scholarships are available for high-performing students.

Degree information

Students are trained in the principles and techniques of engineering large, complex software systems and gain the opportunity to apply these techniques in a realistic group project setting. The programme analyses current practice in software systems engineering, looking at the most significant trends, problems and results in complex software systems.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), three optional modules (45 credits) and a group project (60 credits).

Core modules
-Requirements Engineering and Software Architecture
-Software Abstractions and Systems Integration
-Validation and Verification
-Tools and Environments
-Professional Practice

Optional modules
-People and Security
-Networked Systems
-Language Based Security
-Distributed Systems and Security
-Supervised Learning
-Research Seminar in Software Engineering

Dissertation/report
Most students participate in a group industrial project, generally in close collaboration with one of our industsrial partners.

Other students undertake either an individual or small-group research project, under the supervision of academics in UCL Software Systems Engineering group.

Teaching and learning
The programme is delivered through a combination of lectures, written and laboratory exercises, and group project supervision. Student performance is assessed through written exercises with modelling notations, laboratory exercises with tools and environments, unseen examination papers, and a significant, comprehensive group project.

Careers

This professionally oriented programme provides an ideal foundation for graduates who wish to pursue a career as a software architect or leader of software development organisations. It also provides an excellent introduction for those who want to pursue research in software systems engineering.

Graduates from UCL are keenly sought by the world's leading organisations, and many progress in their careers to secure senior and influential positions. UCL Computer Science (UCL-CS) graduates are particularly valued as a result of the department's strong international reputation, strong links with industry, and ideal location close to the City of London.

Graduates have found positions at global companies such as Barclays and RBS.

Top career destinations for this degree:
-IT Consultant, OnTrack
-Software Analyst and Designer, Nok Technology
-Software Engineer, Accenture
-Software Engineer, Orange
-Security Science, UCL

Employability
There is, throughout the world, a strong demand for software engineers with solid foundations covering not only the programming aspects of software development, but also aspects related to requirements engineering, software architectures, system integration, and testing. Many surveys rank software engineering positions as among the best jobs in the world.

Following graduation, our students are generally hired as software engineers or software architects, sometimes by companies they have engaged with in the context of their MSc project.

Why study this degree at UCL?

UCL Computer Science is recognised as a world-leader in teaching and research, and was one of the top-rated departments in the country according to the UK government's recent research assessment exercise.

Our Master's programmes have some of the highest employment rates and starting salaries, with graduates entering a wide variety of industries from entertainment to finance.

We take an experimental approach to our subject and place a high value on our extensive range of industrial collaborations. In the recent past, students have worked on projects and coursework in collaboration with Microsoft, IBM, JP Morgan, Citigroup and BNP Paribas.

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This MSc is for ambitious engineering graduates who wish to strengthen, lead and transform the high-growth global wind energy industry. Read more

Why this course?

This MSc is for ambitious engineering graduates who wish to strengthen, lead and transform the high-growth global wind energy industry.

This course offers engineering graduates the opportunity to study at one of Europe's largest and leading University power and energy technology groups - the Institute for Energy & Environment.

The Institute is home to over 200 staff and researchers conducting strategic and applied research in key technical and policy aspects of energy systems. It houses the Centres for Doctoral Training in Wind & Marine Energy Systems, and Future Power Networks and Smart Grids, which are dedicated to pioneering research and advanced skills training.

On this course you'll develop and enhance your technical expertise of wind energy and deepen your understanding of engineering, political and economic contexts of wind power. This course will provide an advanced level of knowledge to address current and future challenges of this exciting and dynamic sector.

With links to key UK and global business and industry energy partners, you’ll have unique access to companies at the forefront of wind energy developments.

See https://www.strath.ac.uk/courses/postgraduatetaught/windenergysystems/

You’ll study

Two semesters of compulsory and optional classes, followed by a three-month specialist research project. There’s the opportunity to carry this out through our competitive MSc industrial internships.
The internships are offered in collaboration with selected department industry partners eg ScottishPower, Smarter Grid Solutions, SSE. You'll address real-world engineering challenges facing the partner, with site visits, access and provision of relevant technical data and/or facilities provided, along with an industry mentor and academic supervisor.

Facilities

You'll have exclusive access to our extensive computing network and purpose built teaching spaces including our outdoor test facility for photovoltaics high voltage laboratory, equipped with the latest technologies including:
- LDS 6-digital partial discharge test & measurement system
- Marx impulse generators & GIS test rigs
- £1M distribution network and protection laboratory comprising a 100kVA microgrid, induction machines and programme load banks

You'll have access to the UK’s only high-fidelity control room simulation suite and the Power Networks Demonstration Centre (PNDC). This is Europe’s first centre dedicated to the development and demonstration of “smart-grid” technologies.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for MSc. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers.

Learning & teaching

We use a blend of teaching and learning methods including interactive lectures, problem-solving tutorials and practical project-based laboratories. Our technical and experimental officers are available to support and guide you on individual subject material.

Each module comprises approximately five hours of direct teaching per week. To enhance your understanding of the technical and theoretical topics covered in these, you're expected to undertake a further five to six hours of self-study, using our web-based virtual learning environment (MyPlace), research journals and library facilities.

Individual modules are delivered by academic leaders, and with links to key UK and global industry energy partners, you'll have unique access to companies at the forefront of wind energy developments. 

The teaching and learning methods used ensure you'll develop not only technical engineering expertise but also communications, project management and leadership skills.

You'll undertake group projects. These will help to develop your interpersonal, communication and transferable skills essential to a career in industry.

- Industry engagement
Interaction with industry is provided through our internships, teaching seminars and networking events. The department delivers monthly seminars to support students’ learning and career development. Atkins Global, BAE Systems, Iberdrola, National Grid, ScottishPower, Siemens and Rolls-Royce are just a few examples of the industry partners you can engage with during your course.

Assessment

A variety of assessment techniques are used throughout the course. You'll complete at least six modules. Each module has a combination of written assignments, individual and group reports, oral presentations, practical lab work and, where appropriate, an end-of-term exam.

Assessment of the summer research project/internship consists of four elements, with individual criteria:
1. Interim report (10%, 1500 – 3000 words) – The purpose of this report is to provide a mechanism for supervisors to provide valuable feedback on the project’s objectives and direction.

2. Poster Presentation (15%) – A vital skill of an engineer is the ability to describe their work to others and respond to requests for information. The poster presentation is designed to give you an opportunity to practise that.

3. Final report (55%) – This assesses the communication of project objectives and context, accuracy and relevant of background material, description of practical work and results, depth and soundness of discussion and conclusions, level of engineering achievement and the quality of the report’s presentation.

4. Conduct (20%) - Independent study, project and time management are key features of university learning. The level of your initiative & independent thinking and technical understanding are assessed through project meetings with your supervisor and your written logbooks.

Careers

With the European Wind Energy Association (EWEA) forecasting UK/EU employment in wind energy related jobs to double to more than 500,000 by 2020, graduates of this course have excellent career prospects.

The UK electricity supply industry is currently undergoing a challenging transition driven by the need to meet the Government's binding European targets to provide 15% of the UK's total primary energy consumption from renewable energy sources by 2020.

Graduates of this course have unique access to key UK and global industry energy partners, who are committed to fulfilling these UK Government targets. These companies offer a diverse range of professional and technical employment opportunities in everything from research and development, construction and maintenance, to technical analysis and project design. Companies include Siemens Energy, Sgurr Energy, DNV GL, ScottishPower Renewables and SSE.

Find information on Scholarships here http://www.strath.ac.uk/engineering/electronicelectricalengineering/ourscholarships/.

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The MSc in Finance combines a rigorous, research-based curriculum with extensive real-world applications and operational skill building. Read more
The MSc in Finance combines a rigorous, research-based curriculum with extensive real-world applications and operational skill building.

The program is taught by experienced faculty with outstanding expertise across financial topics. Topics covered include modern Capital Markets, Valuation (including options), Fixed Income, and Capital Structure. Electives include Value Investing, Restructuring, Mergers and Acquisitions, Private Equity and International Finance.

SSE's MSc in Finance has been one of the most popular master programs in Europe, thanks to a great learning environment and outstanding career opportunities offered after graduation. Finance graduates pursue careers in investment banking, corporate finance, private equity, investment management, consulting, as well as non-finance positions.

The Finance program allows for specialization through choices of courses in Corporate Finance and Investment Management.

Two specializations are offered:
• Corporate Finance
• Investment Management

The MSc program in Finance is consistently one of the top ranked programs across various rankings. For example, the Financial Times ranking of the world's best masters programs (2016) have ranked the SSE Finance masters as no. 16 in the world, the top Nordic school represented.

Entry requirements:

Bachelor degree
Should contain at least 90 ECTS in Social Sciences (including but not limited to Finance, Business Administration and/or Economics) , with a minimum of 30 ECTS in Finance, Accounting and Financial Management, and/or Economics, at least half of which specifically in Finance.

GMAT or GRE
GMAT (total score) of 600 or more.
GRE score (quantitative) of 155 or more.
For both formats the recommended score for Analytical Writing part - in the range of 4.5-5.0 or higher.

Proficiency in English
IELTS Academic score at least 7
TOEFL iBT total score at least 100

English language test exemptions (ONLY THESE CASES):
English as native language
Bachelor’s degree from a program conducted completely in English
Qualifications “English B” from Swedish upper secondary school (ONLY Swedish schools).

Motivation & supporting attachments
Relevant work experience and extracurricular activities may be taken into

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The Master’s Programme in Quantitative Economics and Finance (MiQE/F) offers a high-quality graduate education in economic theory, finance and quantitative methods. Read more
The Master’s Programme in Quantitative Economics and Finance (MiQE/F) offers a high-quality graduate education in economic theory, finance and quantitative methods. Apart from a common set of core courses, our students are able to select from a large menu of elective courses to specialise in economics, finance, or a combination of both. The MiQE/F prepares students for ambitious careers where a solid understanding of the theoretical foundations of economics and finance and a rigorous competence in quantitative methods are required. This combination provides MiQE/F graduates with a competitive advantage on the job market and direct access to highly selective Ph.D. programmes.

Curriculum

The MiQE/F is a research-oriented programme. The objective of the programme is to educate highly-qualified economists with special skills in the area of quantitative methods. The MiQE/F uniquely combines theoretical concepts, quantitative methods and their application to practical problems. On the basis of well-understood theory and methodology, students develop the skills necessary to analyze and solve complex practical problems.

Students need to successfully complete a course load of 90 ECTS in order to graduate with an M.A. HSG in Quantitative Economics and Finance.
In the MiQE/F programme, the compulsory courses mainly focus on economic theory and quantitative methods. This allows you to choose core electives according to your interests and talents and to shape your profile.

Compulsory courses
In the compulsory courses you will acquire basic methods and a theoretical knowledge of economics, finance and econometrics, as well as mathematics and statistics:
• Econometrics I / II
• Theory of Finance
• Advanced Microeconomics II
• Advanced Macroeconomics II
• Statistics
• Mathematics
• Advanced Mathematics and Statistics

Core electives and specialisations
The core electives involve advanced application- oriented work and problem-solving and allow for various specialisations. The different areas of specialisation include optional courses in econometrics, finance and economics, which are important to prepare for quantitative applications. The three specialisation areas can be flexibly combined. You can choose core electives and will have the possibility to create your profile by specialising within a field of your interest:
• Quantitative economics
• Quantitative finance
• Corporate finance, banking and insurance

Master’s thesis
The topic of the Master’s thesis has to be chosen from the MiQE/F core studies. When writing your thesis, you will be applying the skills you have acquired to explore a special research topic. The thesis must be written in English.

Contextual Studies
Contextual Studies are an opportunity to acquire leadership skills and develop intellectually and culturally beyond the scope of core studies. You are free to choose from Contextual Studies irrespective of your particular Master’s programme.

The Master´s Programme in Quantitative Economics and Finance (MiQE/F) has been continuously renewing its structure and curriculum to meet the changing needs in today's academic and business worlds. For the updated programme content, please refer to the programme's website: http://www.miqef.unisg.ch

Double degree and exchange programmes

By choosing the MiQE/F you can benefit from obtaining a double degree from the HSG and an additional leading European university: SSE, Stockholm (exclusively for economics students); ESADE, Barcelona; HEC, Paris; RSM, Rotterdam; and Bocconi, Milan. By choosing the MiQE/F, you will also have the opportunity to apply for the CEMS Master’s in International Management (CEMS MIM). To extend your choice of courses, the University of St.Gallen and the University of Constance (Germany) have agreed to cooperate at the Master’s Level. MiQE/F students thus have the possibility to choose certain courses from the Master’s Programme in International Economic Relations at the University of Constance, and vice versa.
Furthermore, the University of St.Gallen offers exchange programmes for its students with 190 partner universities worldwide.

Career perspectives - A competitive advantage

Graduates with an economics degree often lack an in-depth education and extensive training in quantitative methods, whereas mathematicians and statisticians often lack the necessary background in economics or finance. The analysis of complex real world problems in international economic policy making, financial sector developments and private industry increasingly requires the use of rigorous quantitative and theoretical methods as they are offered by the MiQE/F.
The MiQE/F programme prepares students for ambitious careers that require a sound training in economics and finance, as well as in statistical and econometric methods. Your competitive advantage on the job market – after graduating from the MiQE/F – is the combination of your expertise in quantitative methods and a profound knowledge of economics and finance.

Language

The programme is taught in English.

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Renewable Energy Systems and the Environment is one of the pathways offered in the Sustainable Engineering programme. This course examines the design and operation of the energy systems that provide the environments in which people live and work. Read more

Why this course?

Renewable Energy Systems and the Environment is one of the pathways offered in the Sustainable Engineering programme.

This course examines the design and operation of the energy systems that provide the environments in which people live and work. It explores how quality of life can be balanced by the need for conservation of world resources.

You’ll learn about different energy resources:
- renewable
- fossil
- nuclear

You’ll look at the systems that are employed to control these resources such as:
- combined heat & power schemes
- heat pumps
- solar capture devices
- high efficiency condensing boilers
- advanced materials
- adaptive control systems

You’ll explore the impact energy has on the environment and how it can be reduced.

Our course has been running for over 20 years and has over 400 graduates. External examiners consistently refer to our beneficial links with industry and the high quality of our project work.

Study mode and duration:
- MSc:12 months full-time, up to 36 months part-time
- PgDip: 9 months full-time

See the website https://www.strath.ac.uk/courses/postgraduatetaught/sustainableengineeringrenewableenergysystemstheenvironment/

You’ll study

Studying at least three generic modules will meet the key requirements to attain Chartered Engineer status.

You must take three specialist modules if you’re studying for the Postgraduate Certificate and up to five if you’re studying for a Postgraduate Diploma or MSc.

Successful completion of six modules leads to the award of a Postgraduate Certificate.

Major projects

- Group project
This usually involves four or five students working together. Each project focuses on a particular energy/environment system and includes a technical appraisal, and, where appropriate, an assessment of its cost effectiveness and environmental impact.
At the end of the project, students perform a presentation during the University’s Knowledge Exchange week to invited guests from industry. This event provides an important networking opportunity for students.

- Individual project
The individual project is an opportunity for students to work independently on an energy topic with a more in-depth analysis than the group project.

Accreditation

The course is approved by the Energy Institute, the Institution of Mechanical Engineers and the Royal Aeronautical Society and meets the academic requirements for Chartered Engineer (CEng) status.
Students are encouraged to take up free membership of these professional organisations.

Facilities

Students have access to departmental laboratories with a range of testing equipment. For example, a recent MSc project included the use of sophisticated thermal measurement of thermal storage materials undertaken in the Advanced Materials Research Laboratory.

Student competitions

Students can enter a number of competitions, which vary year-to-year. Recent examples include:
- District Heating and Cooling (DHC+) Student Competition
- Chartered Institution of Building Services Engineers Simulation Group Award for Best MSc Dissertation

- Guest lectures
Students are regularly invited to talks by research visitors from the Energy Systems Research Unit. Talks on career options are also given by representatives of the Energy Institute.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

The course comprises compulsory technical modules, a choice of broader generic modules, which are recommended by accrediting professional bodies, group projects with industry input, and individual projects.

Teaching methods are varied, and include lectures, discussions, group work, informal reviews, on-line questionnaires, and computer modelling laboratories.

Assessment

Assessment of taught modules are by written assignments and exams. Group projects are assessed by project websites and presentations. Individual projects are assessed on the submitted thesis.

Careers

- Where are they now?
100% of our graduates are in work or further study.*

Job titles include:
- Artificial Intelligence Engineer
- Biomass Engineer
- Renewable Energy Consultant
- Renewable Energy Development Officer
- Technical Analyst

Employers include:
- Greenspan
- Mott Macdonald
- Natural Power
- SSE
- Scottish Power Energy Networks
- The Campbell Palmer Partnership
- RSP Consulting Engineers

*Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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This MSc is specifically designed for students who wish to pursue advanced studies across the broad range of subjects relevant to electronic and electrical engineering. Read more

Why this course?

This MSc is specifically designed for students who wish to pursue advanced studies across the broad range of subjects relevant to electronic and electrical engineering.

You can select classes from the extensive range of postgraduate taught courses delivered by our Department of Electronic & Electrical Engineering. This unique flexible structure allows you to build a personalised MSc programme that meets your academic interests and career aspirations.

The course can lead to a wide range of career opportunities. Recent graduates have gained well paid positions in:
- electrical supply industries
- telecommunications and IT
- consulting and design companies
- healthcare and aerospace

See the website https://www.strath.ac.uk/courses/postgraduatetaught/electronicelectricalengineering/

You’ll study

There’s two semesters of compulsory and optional classes, followed by a three-month research project in your chosen area. There’s the opportunity to carry this out through the department's competitive MSc industrial internships.

The internships are offered in collaboration with selected department industry partners, including ScottishPower, Smarter Grid Solutions and SSE. You'll address engineering challenges facing the partner, with site visits, access and provision of relevant technical data and/or facilities provided, along with an industry mentor and academic supervisor.

Facilities

You'll have exclusive access to our extensive computing network and purpose-built teaching spaces, including our outdoor test facility for photovoltaics high voltage laboratory, equipped with the latest technologies including:
- LDS 6-digital partial discharge test & measurement system
- Marx impulse generators & GIS test rigs
- £1M distribution network and protection laboratory comprising a 100kVA microgrid, induction machines and programme load banks

You'll have access to the UK’s only high-fidelity control room simulation suite and the Power Networks Demonstration Centre (PNDC). This is Europe’s first centre dedicated to the development and demonstration of “smart-grid” technologies.

Accreditation

The course is fully accredited by the professional body, the Institution of Engineering and Technology (IET). This means that you'll meet the educational requirements to become a “Chartered Engineer” – a must for your future engineering career.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

We use a blend of teaching and learning methods including interactive lectures, problem-solving tutorials and practical project-based laboratories. Our technical and experimental officers are available to support and guide you on individual subject material.
Each module comprises of approximately five hours of direct teaching per week. To enhance your understanding of the technical and theoretical topics covered in these, you're expected to undertake a further five to six hours of self-study, using our web-based virtual learning environment (MyPlace), research journals and library facilities.
The teaching and learning methods used ensure you'll develop not only technical engineering expertise but also communications, project management and leadership skills.
You'll undertake group projects. These will help to develop your interpersonal, communication and transferable skills essential to a career in industry.

- Industry engagement
Interaction with industry is provided through our internships, teaching seminars and networking events. The department delivers monthly seminars to support students’ learning and career development. Siemens, Rolls-Royce, Xilinx, Selex ES and Mott MacDonald are just a few examples of the industry partners you can engage with during your course.

Assessment

A variety of assessment techniques are used throughout the course. You'll complete at least six modules. Each module has a combination of written assignments, individual and group reports, oral presentations, practical lab work and, where appropriate, an end-of-term exam.
Assessment of the summer research project/internship consists of four elements, with individual criteria:
1. Interim report (10%, 1500 – 3000 words) – The purpose of this report is to provide a mechanism for supervisors to provide valuable feedback on the project’s objectives and direction.

2. Poster Presentation (15%) – A vital skill of an engineer is the ability to describe their work to others and respond to requests for information. The poster presentation is designed to give you an opportunity to practise that.

3. Final report (55%) – This assesses the communication of project objectives and context, accuracy and relevant of background material, description of practical work and results, depth and soundness of discussion and conclusions, level of engineering achievement and the quality of the report’s presentation.

4. Conduct (20%) - Independent study, project and time management are key features of university learning. The level of your initiative & independent thinking and technical understanding are assessed through project meetings with your supervisor and your written logbooks.

Careers

The flexible structure of the course means graduates are able to design their own personalised programme to suit individual interests. Career opportunities are vast and include the electrical supply industries, oil and gas sector, telecommunications, IT, banking and finance, consulting and design companies, healthcare and aerospace.

Recent graduates have secured technical positions such as control engineers, design engineers and electronics engineers with organisations including GE, Jaguar LandRover and BP. They've also taken up managerial roles such as technology analysts, project managers and risk assessors with Morgan Stanley, Mott MacDonald and Atkins Global.

The MSc is also a great starting point for research within the department.

How much will I earn?

Salaries for electrical engineers start at around £20,000 to £25,000. Experienced or incorporated engineers can earn between £28,000 and £40,000. A chartered electrical engineer can earn higher salaries of £40,000 to £55,000 or more.*

*information is intended only as a guide. Figures taken from Prospects.

Find information on Scholarships here http://www.strath.ac.uk/engineering/electronicelectricalengineering/ourscholarships/.

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