Automotive Engineering Graduate School

Graduate School for Automotive Engineering

Faculty of Mechanical Engineering and Technology. They do not necessarily have to specialise in a specific area of vehicle technology. The Engine Research Center does not, however, have a required graduate research component. She prepares her graduates for direct employment as automotive engineers and lays the foundation for postgraduate studies in automotive engineering. Clues to why you should study automotive engineering in the UK.

Part-time Master's degree courses in automotive engineering

The aim of this automotive engineering graduate course is to improve the job and career prospects of engineering and vehicle construction students. The aim of this automotive engineering graduate course is to improve the job and career prospects of engineering and vehicle construction students. This program deals in detail with important areas of automotive engineering.

It has an integral styling that addresses both the technology and business issues of the automotive market. Chartered Engineer (CEng) akkreditiert Von der Institution of Engineering and Technology (IET) und der Royal Aeronautical Society (RAeS) als Chartered Engineer (CEng) akkreditiert. The aim of this program is to improve the job and promotion possibilities of engineering and vehicle construction school-leavers.

This is an excellent way to get an idea of the automotive sector, which is of inestimable value in your application and helps you to accelerate your careers in the new marketplace. School of Engineering and Technology is known for its innovative methods of instruction and study, where almost all students are offered through a mix of live classroom instruction and back-up tutorials using the university's StudyNet web-based school.

The StudyNet enables the student to gain easy acces to eLearning materials and to hold eDiscussions with employees and other undergraduates. The focus is on theoretical and practical aspects, and the School of Engineering and Technology relies, wherever possible, on industry standardsoftware. School of Engineering and Technology also operates an Open Account Lab and a computer guideline that will help the student finish their course work and tasks on schedule and on-schedule.

The automotive industry's designs are changing rapidly and radically and this course is preparing automotive designers for this intricate and rapid evolution. The automotive industry's designs are changing rapidly and radically and this course is preparing automotive designers for this intricate and rapid evolution.

We apply our methodology in the development, manufacturing and inspection of automotive components to ensure that our alumni are prepared for the automotive sector, with great employment outlooks. Furthermore, our site is located in the centre of one of the largest high-tech concentration in Europe and the British motor sports valley. As a result, the student has unsurpassed possibilities to work with the automotive and automotive supplier chains.

This keeps the student up to date on the latest trends in automotive engineering, manufacturing methodologies, process and managerial technology. The focus of our training is on our ultra-modern labs in a specially conceived technical centre. They will be trained in a specially constructed engineering facility by employees with extraordinary skills and experiences in their field. Among the instructors are world-leading researchers in the field of renewable automotive technology and those with development and collaboration experiences with large automotive OEMs such as TATA, MAN and BMW.

You can find further information in our presentation programme. The BMW MINI factory in Oxford, Porsche, Ford, MAN, MIRA and other domestic and foreign companies have strong ties to the automotive sector. Approved by the Institution of Mechanical Engineers (IMechE) and the Institute of Engineering and Technology, who meet the accreditation criteria for Chartered Engineer certification.

In order to be qualified for a Master's programme, you must complete the mandatory course of study, one of two alternate mandatory course of study and one elective course as well as the theses. Sustainable technology. Alternate mandatory courses (you must have at least one of them): Voluntary moduls (you take one of them, unless you take both alternative-mandatory moduls):

Thesis ( "Core, triplicate credit") is an independent automotive engineering research and development program that offers the possibility to acquire a high degree of knowledge in a specific area of automotive engineering, incl. the use of industrial standards and/or experimentation, the course also teaches you research competences, design technologies and projectmanagement.

While a large number of industrial pro-jects (e.g. MAN (Germany), VUHL (Mexico), McLaren (UK), AVL (Austria), Arctic Truck (Iceland) etc.) are available, you can also carry out your own pro-jects at home and abroad in order to work in cooperation with a research or trade-organization. Since our training programs are checked on a regular basis as part of our QA process, the selection of available components may differ from those described above.

The teachers come mainly from the Faculty of Mechanical Engineering and Mathematics. Guest lecturers from the economy and the industrial sector will give further suggestions. The best career prospects are enjoyed by our alumni, as literally a hundred engineering undergraduates have started a career in their area. Most of our undergraduates work with major automotive and motorsports firms in the UK and around the world.

It is the objective of the program to provide non-engineers with a strong engineering education in order to cope with the high requirements of today's intensely contested world. It is the objective of the program to provide non-engineers with a strong engineering education in order to cope with the high requirements of today's intensely contested world.

After completing these classes, the student will gain a wide knowledge of engineering with a special emphasis on aviation and space technology. This university has been conducting automotive studies for almost forty years and is very well positioned in the automotive world. With some 250 automotive engineering graduate and doctoral candidates, we are one of the UK's leading automotive engineering majors.

Our automotive engineering facility includes an automotive center with motor test benches. Developing capabilities and promoting know-how are at the forefront: this is what we do: The groundbreaking program is a series of "specialized" Master's degrees with the anticipation that the student has completed a STEM-related degree or Bachelor's degree or similar, as distinct from a "traditional" Master's degree program designed for undergraduates.

In the first year, the student studies one to two semester corresponding 4/5 level courses and then joins the Near-STEM group ( (e.g. chemics or biology). In the first year, the student studies one to two semester corresponding 4/5 level courses and then joins the Near-STEM group ( (e.g. chemics or biology).

Successfully completed postgraduate students will gain the know-how and comprehension, as well as the mental, hands-on and hands-on capabilities needed to analyze and synthesize engineering issues through a mix of experiments, simulations, research methodologies and case study. This school is known for its innovative method of instruction and study, where almost all students are offered through a mix of live classroom instruction and back-up tutorials using the university's StudyNet web-based school.

StudyNet is available 24 hours a day and enables the student to gain full use of the eLearning resource and to hold eDiscussions with employees and other undergraduates. The school places great value on theoretical and practical aspects and uses industry standards wherever possible. It also operates an Open Account Lab and a computer guideline that will help pupils finish course work and tasks on-schedule.

Automotive electricians must combine real-time softwares, safety-critical boundary conditions, sensing electronic, regulatory algorithm, people, law and ethical considerations into a workpacket that meets the needs of a number of stakeholder groups. Ricardo Engineering has been involved in the development of this course to ensure that our student engineers are provided with industry-specific capabilities. Its ongoing commitment also involves the use of groundbreaking industrial machinery by the Ricardo University research institute for internal combustion engines.

These also help to promote the next generation of engineers at home and abroad. In this course you will cover a variety of subjects such as networked communications network, consumer electronics, security-critical softwares, diagnostic, alternative fuel and hybrids. Our Automotive Research Group received an outstanding credit in the most recent Research Assessment Exercise (RAE2008), in which 70 percent of its research was either awarded international excellence or global leadership and 95 percent was recognized as international.

It has been awarded accreditation by the Institution of Engineering and Technology on assignment of the Engineering Council, as it fulfils the prerequisites for further training as a state-certified engineering graduate. Each semester you will take four different courses and take examinations after your Christmas and Easter holidays. You will have between three and four lessons a week with the instructor for each course of instruction, as well as other self-study and lab-based activities that require extracurricular studies.

At the end of all eight learned units you start your own personal work. You can complete part-time studies by completing the module more slowly. Studying eight different units and starting an individually tailored program. Some of the research activities include real-time modeling of the drive line for automotive electronics test loops, a special system with electrical vehicle batteries, and an exploratory analysis of novel injector and firing technologies for a spray-guided petrol motor.

In the research and training departments of the Engineering and Product Design department there are a number of motor test benches in which the world's foremost research is located. They often conduct research and contribute to research or business innovations. Prof. Stipidis and his research staff deliver precious research results on the state of the technology in the field of automotive communication architecture and also make the necessary infrastructures available for some of the lab tutorials in the Automotive Communication Systems training modules.

It' perfect for those who want to work as research or engineering people. Graduate work can vary; it can be with OEMs (Original Equipment Manufacturers) like Ford, General Motors, Jaguar Land Rover, advisors like Ricardo, Lotus or AVL or with Tier One vendors like Delphi, Infineon or Denso.

Among other things, our seminarians have ensured the following roles: The program was developed in collaboration with firms such as Ford Motor Company and Jaguar Land Rover and is also targeted at current or future production designers and production staff, especially those who work in cross-functional and hands-on working environments with designers.

The program was developed in collaboration with firms such as Ford Motor Company and Jaguar Land Rover and is also targeted at current or future production designers and production staff, especially those who work in cross-functional and hands-on working environments with designers. The student studies three mandatory and three additional courses from a selection of five courses.

Furthermore, full-time undergraduates carry out a higher education study and part-time undergraduates carry out an industrial work. This program is certified by the Institution of Mechanical Eng. (towards Chartered Status). The course is designed for automotive engineering professionals who want to broaden and broaden their knowledge and abilities in this area, as well as for those who are looking for a professional position in the sector.

The course is primarily designed for industrial designers, but also for those who work in the production industries and work with their counterparts in the field of industrial engineering in cross-functional engineering teamwork. Single moduls of this Master's degree can be attended as brief course. This program is highly engineering oriented, as it is part of a system technology frame.

Undergraduates are required to complete three mandatory and three elective courses and complete an individually tailored course. The course consists of 180 module based points, consisting of 6 teaching units with a value of 20 points each and the 60 CER. This course is usually offered in the form of a set of blocks.

Fulltime student undertakes a university study and part-time student an industrial one. - Covers a systems thought frameworks that relates to the life cycle of the products, the objectives, the collection of demands and the case, as well as components of business-relevant practical technical driving forces. - Develops sophisticated and special topics via the elective module.

  • One module can be taken as a brief course of study. - Developed in collaboration with Ford Motor Company, the course continues to work in close collaboration with the automotive community in the planning, engineering and delivery of our course. The alumni work mainly in production designs and engineering groups and are wanted by a large number of automotive enterprises.

Those who want to change their career are well prepared to work in various areas of the automotive sector. The Loughborough University provides five excellence grants amounting to 10% of the fees for foreign applicants for the Automotive Systems Engineering Ph.

Any student who applies for the course will be eligible for the grant. In Loughborough, why air and vehicle technology? Department of Automotive and Aerospace Engineering is a technical center within one of the UK's biggest engineering schools. It has 37 research assistants and almost 150 doctoral candidates in teaching and research programs.

It has a wide range of labs and equipment including: windtunnels, absorber rooms, interior UV tests, structural test benches, gasturbine motors, eight custom designed test benches, Hawk aircrafts, 6-axle simulators (road and air), undercarriage test benches and a wide range of instrumentation test cars. It houses the Rolls-Royce University Technology Centre (UTC) for combustion aerodynamics and the Caterpillar Innovation and Research Centre (IRC) for motoring.

It has four large research groups dealing with automotive and aerospace technology. From developing new low-emission internal-combustion systems for gasturbine motors to basic research into the functioning of hydrogen-powered fuels cels.

It is the objective of the program to provide non-engineers with a strong engineering education in order to cope with the high requirements of today's intensely contested world. It is the objective of the program to provide non-engineers with a strong engineering education in order to cope with the high requirements of today's intensely contested world.

After completing these classes, the student will gain a wide knowledge of engineering with a special emphasis on aviation and space technology. This university has been conducting automotive studies for almost forty years and is very well positioned in the automotive world. With some 250 automotive engineering graduate and doctoral candidates, we are one of the UK's leading automotive engineering majors.

Our automotive engineering facility includes an automotive center with motor test benches. Developing capabilities and promoting know-how are at the forefront: this is what we do: The groundbreaking program is a series of "specialized" Master's degrees with the anticipation that the student has completed a STEM-related degree or Bachelor's degree or similar, as distinct from a "traditional" Master's degree program designed for undergraduates.

In the first year, the student studies one to two semester corresponding 4/5 level courses and then joins the Near-STEM group ( (e.g. chemics or biology). It is intended for admissions of young people whose course of study would have made full use of practical math for the development and explanation of engineering and/or natural science approaches (e.g. physical sciences or mathematics).

Successfully completed postgraduate students will gain the know-how and comprehension, as well as the mental, hands-on and hands-on capabilities needed to analyze and synthesize engineering issues through a mix of experiments, simulations, research methodologies and case study. This school is known for its innovative method of instruction and study, where almost all students are offered through a mix of live classroom instruction and back-up tutorials using the university's StudyNet web-based school.

StudyNet is available 24 hours a day and enables the student to gain full use of the eLearning resource and to hold eDiscussions with employees and other undergraduates. The school places great value on theoretical and practical aspects and uses industry standards wherever possible. It also operates an Open Account Lab and a computer guideline that will help pupils finish course work and tasks on-schedule.

Participants complete 12 3-year modules, including 5 Core (C) and 7 Optional (O), as well as a SSE theme in the automotive sector (over the last year). The aim of this module based Master's degree is to help preparing the student to work in the challenging area of security systems engineering (SSE) by familiarizing them with the latest scientific and technological developments in this area.

The course concentrates on the basic principals and practice of SSE in a number of areas, automotive included. The course concentrates on special SSE and automotive issues in the elective modular stage. They are also aimed at looking at SSE issues in an automotive environment. This can be understood as a systematic analysis of risk assessment schemes with the objective of affecting risk reduction through more secure product and service designs.

Therefore, these technologies must be extended and revised in order to be able to handle state-of-the-art technology efficiently. In our opinion, the study of questions of the security of computer sys-tems has also provided some useful insight into conventional system security technology, e.g. into the significance of important terms such as the concept of danger.

Optionally, the module allows the student to examine areas such as the contributions of softwares, HR or operating parameters in the vehicle technology area. This course is designed to give the student a solid education and hands-on training in the application of advanced technologies to develop safety-critical equipment and an appreciation of the fundamentals of these technologies so that they can make well-founded technical assessments during the course of developing, deploying and operating such equipment.

The alumni are enabled to take part in safety-critical issues of plant engineering in trade and trade. We are developing new areas of education in reaction to new progress in this area and to the needs of the organizations that our alumni work for. This course is designed to provide the student with basic System Engineering know-how, comprehension and hands-on experience to supplement the already acquired know-how and aptitudes.

Graduates of York System Security Engineering with Automotive Applications have expertise and comprehension of the key areas covered by the key module, as well as expertise and comprehension of a number of technical subjects covered by the elective module, and the capability to detect problems with the security processes in a given task, find answers to this shortcoming, and assess the suggestion as it is covered by the task.

Information gathering is an integral part of many of our courses; we expect our clients to obtain information from online and conventional resources on their own. This capability is necessary in almost all of our software packages. Some of the components require and develop computing power. The student has to arrange his personal studies around these benchmarks. Furthermore, open assessments with strict timeframes are established, which allow the pupils to balance their times between the different obligations.

University-level undergraduates are entitled to participate in the York Award, where they can acquire certifiable, portable abilities. The Languages for All program is one of them, allowing the student to increase their knowledge of the world. MSc System Safety Engineering with Automotive Applications for part-time undergraduates comprises 60 credits:

This project(s) enables(s) the students: Project/projects address a technological issue that deals with actual problems in the automotive sector. This is a logical development of the teaching materials. This deals with the issue from the point of view of vehicle system security, as well as comprising equipment, softwares or man.

With the help of their manager and academics, the student is invited to choose a product that is appropriate for their own work. It starts at the beginning of the autumn semester after completing the learned module and takes 12 month part-time.

This course will give you the necessary knowledge to become a qualified engineering professional able to perform related functions within and between different organizations. This course will give you the necessary knowledge to become a qualified engineering professional able to perform related functions within and between different organizations.

This course will give you the necessary knowledge to become a qualified engineering professional able to perform related functions within and between different organizations. This course promotes creativity and the evolution of engineering science management qualities and teaches you to resolve issues through research.

You will learn independently, promote your comprehension and develop new abilities. As well as other research possibilities in academia, careers are seen to keep up with the fast progress in computer-based methodologies and smart technology, so that the need for skilled and diverse PhD students who can develop and deliver cutting-edge industrial work.

You will become familiar with industry-standard, advanced, computer-aided instruments such as mechanical analyses, numerical flow mechanics, fine elements analyses and volume modeling and will have the possibility to put these to practical technical use. Our IMechE certification keeps our course up to date and pertinent and provides us with important contact and insights into the sector.

Technologybased training may be used through the availability of on-line tools, panels and other actions. Analytic and problem-solving abilities are further refined through a series of appropriate "real" and "theoretical" case study and problem-based training environments. Courses focus on interactive and participatory training, which includes hands-on training, problem-based training and group work that develops their abilities in analysing, synthesising, making decisions and dealing with new and unknown issues.

A number of methodologies such as course work, exams (seen and not seen, open and closed), presentation, hands-on exercises, viva's, on-line fora, podcasting and work on projects are used to assess the form and summary of your work. This course is IMechE-approved to ensure that our contents remain refreshed, pertinent and filled with important sector information.

The aim of this course is to give you a deeper insight into state-of-the-art automotive and industrial use. Throughout the automotive sector, there is a high level of interest in engineering with both in-depth scientific expertise and sophisticated hands-on experience. The employer is also interested in employing employees who can develop and analyze sophisticated automotive engineering solutions and assemblies.

The Wrexham Glyndwr University has proved itself in the fields of automotive engineering and motor sports. This course includes components that cover the key facets of automotive engineering and provide a sound backdrop for a successful automotive and motor sports careers. The Wrexham Glyndwr University has proved itself in the fields of automotive engineering and motor sports.

This course includes components that cover the key facets of automotive engineering and offer a sound backdrop for a successful automotive and motor sports careers. The open and welcoming environment promotes the student's study environment. Close ties to regional, domestic and multinational corporations guarantee that the standards of education are of relevance to the branch and enable the best possible entry into their work.

Entrance to a specialised motor sports garage and an industrial manufacturing shop to gather machine handling experiences. Currently the student also leads a Formula Student Teams. A sound basis for professional advancement in the industrial sector. Part One, the programs are supplied in two 12-week term and each term has a charge of 60 gl.

It covers six units that contain classes, lessons, tutorials and hands-on work on a daily base. To be accepted in January, the three subject areas will initially be taken up in the second term from January to May. In the first quarter of the next year, the three key elements will be completed from September to January.

After successfully completing the learned part of the program, the student will proceed to the second part, the Ph. Part I of the programs is conducted in two years. The first year will receive 80 points or equal units and the second year 40 more.

Participants take part in the full-time training with classes and exercises/practical work during one week. This section provides an outline of the course's contents in the shape of key or optional coursework. Subjects are defined as either kernel or optional in accordance with the needs of the trade associations and the in-house verification of the academical context and may therefore be modified.

This course provides you with in-depth engineering science expertise and abilities at the cutting edge of new and evolving technology. The alumni will be able to become experts in the industrial sector or follow research career paths in science. The program gives you the expertise and capabilities you need to fulfill the analytical, engineering and manufacturing needs of the automotive world.

The program gives you the expertise and capabilities you need to fulfill the analytical, engineering and manufacturing needs of the automotive world. The branch is historically associated with mass production automotive engineering, but in the last ten years the countryside has changed to automotive suppliers and specialized firms of designers and consultants.

Our kernel module development focuses on your expertise in areas such as suspension and drive technology as well as automotive and production system designs. You can then select from elective courses on subjects that correspond to your own interests and your own development. For us, calculation methodologies and softwares are particularly important in the field of car analyses, construction and production.

You can use Matlab, Abaqu's FEMC, Fluent CFD, SolidWorks CAE and LabView (measurement and control) according to the module you select. You profit from working in first-class special equipment for various areas of automotive technology. This includes a test stand for brakes and a measuring laboratory as well as the latest industrial standards for numerical flow mechanics and fine particle modeling of sys tems. and materi- al.

High-quality CNC and EDM machines are available in the faculty's workshops, and we have the latest tribological equipment to investigate the abrasion of motor parts. There is even a "stirring bomb" for characterizing gasoline firing and progressive motors with visual acces. When you are committed to the Formula Student racing cars, you can also use our own vehicle construction with computer-controlled motor test benches.

The course is licensed by the Institute of Mechanic Engineers (IMechE) from the Engineering Council. Machine construction links basic science, maths and realization in order to create, engineer and realize groundbreaking ideas for current issues. Machine construction links basic science, maths and realization in order to create, engineer and realize groundbreaking ideas for current issues.

The program will improve your abilities and give you advance engineering expertise to speed up your engineering careers. Machinery plays a key role in modern living and is crucial for innovations in many sectors, from the development of spare hips and clinical MRI scanner to the development of stand-alone cars and the supervision of the infrastructure integrity of off-shore wind farms.

The course of studies of the Institution of Mechanic Engineers (IMechE) accreditation includes progressive subjects of engineering and industry-related work. During the year you will be studying six teaching units and also carrying out a large scale personalized program. They will give you further information and allow you to further improve your professional abilities so that you can benefit from the numerous job offers for engineers and technicians at home and abroad.

Among other things, you will learn tension engineering, fine elements engineering and modeling, renewable energies incl. windpower, hydroelectric and hydroelectric energy, mechanics and mechanics, steering and self-learning as well as sys-tems. Simultaneously, you will acquire general appreciated competencies such as the ability to solve problems, analyse and work in a group.

An essential part of the program is a doctoral thesis in which you will conduct your own research, be supervised by an academical expert and possibly work together with one of our industrial allies. In this way you can practice your abilities and prove your vocational competencies and thus improve your ability to work.

Recent studies have resulted in jobs for many graduates: In addition to the thesis you will also be completing an industry-related research group. They acquire working experiences in a realistic working environment and at the same time acquire and develop high-level employability abilities such as communication, teamwork and projectmanagement.

During your course you will be studying a number of different topics, some of which are shown below. The information on the website on the modules is accurate at the date of publishing, but changes may be necessary, e.g. due to students' input, employers' liability insurance association demands, personnel changes and new research.

Engineering is more than just a theoretical approach, so that you can attend internships, trainings, workshops and group exercises in between. Furthermore, our engineers and our administration supporting staff are very open-minded and have many years of professional expertise to help our customers succeed. The evaluation differs between the different units so that the student can prove their skills in different ways.

Our graduate programs are of high standard and strict and are aimed at preparing and equipping our alumni for a worthwhile careers. It offers an inter-disciplinary view that mirrors the dynamics of engineering. Our employees and our undergraduates will welcome and assist you both scientifically and in society. The aim of our Mechanical Engineering Sc degree is to help you achieve your goals and progress in your careers.

Upgrading your engineering and business capabilities and putting what you've learned into practice, this program provides you with the know-how and expertise for a number of engineering professions and takes you to the top of the game.

In many industries, machine construction is of relevance and entry wages are very competitively priced. As an alternative, our program gives you the abilities, know-how and expertise to take up further studies at doctoral or postgraduate levels and to start a research careers in which you can explore new, cutting-edge areas of engineering.

of Motorsports Engineering offers a one-of-a-kind way of preparing for work in the motorsports sector. of Motorsports Engineering offers a one-of-a-kind way of preparing for work in the motorsports sector. Located in the centre of the British motorsports valley, near most Formula 1 racing crews and their distribution chains, our department has unparalleled links with motorsports firms.

It provides information and leads the programme design and implementation, and benefits from the contributions of a number of proven motor sport-professionals. In addition, it gives the student the opportunity to carry out industry-specific research often in combination with our high-calibre research, which is supported by state-of-the-art vehicle testing devices in a specially conceived technical school.

They also have the chance to apply their theory in Oxford Brookes Coaching, our renowned F1 student squad, to get an insight into the raceculture and an enviroment in which they build awesome coaches. We' re known as a leader in motorsports training - our motorsports heritage is recognized around the world and many of our alumni work with top motorsports corporations, among them all F1 crews, Formel D and key motorsports industries vendors.

Designed and implemented in partnership with the motor sports industries, our program is conducted in labs that comprise a series of race car, a four-column test stand, four state-of-the-art motor test benches, analytic and mechanic testing facilities and the latest 3-D printing-technologies.

All of our employees have outstanding know-how in the area of motor sports technology and are winners of F1 racing cars designs and world-leading scientists in the sector of sustained automotive technology. Guest instructors from economy and economy offer job prospects and prepare you for an interesting and interesting carreer. You can find further information in our researches. They have the chance to join our renowned Formula Student Teams (OBR), which are supervised by our graduates and guest instructors from the motor sport in-dustry.

Frequent trips to F1 crews, F1 electric crews and key automotive supplier companies give them the opportunity to learn about the technological challenge and the latest technologies - to get an impression of our department's work, see 2015 higlights. Approved by the Institution of Mechanical Engineers (IMechE) and the Institute of Engineering and Technolgy, who meet the accreditation criteria for Chartered Engineer certification.

There are three timeframes for making use of the mobility training program offered by Mercedes-Benz: In order to be qualified for a Master's programme, you must have passed the mandatory module, two elective courses and the Ph. Mandatory modules: Optionally available module (choose two): This thesis is an individually tailored research proposal on a motor sports technology subject that offers the possibility to specialize in a specific area of motor sports.

Besides the development of a high competence in a certain area of motorsports, incl. the use of factory standards and/or experimentation, the course also teaches you research competences, design technologies and projectmanagement. Dallara, VUHL, Base Performance, McLaren, AVL), you can also carry out your own national and international research and development programs in order to work in cooperation with a research, trade or business organization.

Since our training programs are checked on a regular basis as part of our QA process, the selection of available components may differ from those described above. The training method includes classes, workshops to impart a solid foundation in theories, and hands-on work to highlight important facets of system use.

Guest lecturers from the worlds of economics and motor sports will give invaluable insight. Alumni have the best career opportunities: hundrets of engineering undergraduates have started a career in the motor sport world. Most of our undergraduates work with major motor sport firms, also directly in Formula 1 racing crews and their subcontractors.

Among our remarkable graduate students are William Morris, co-founders of Morris Autos (Lord Nuffield) and Adrian Reynard, motorsports drivers and entrepreneurs, while Sir John Surtees, Adrian Newey and Dr. Pat Symonds are honourariums. Today's industry relies on technical innovation and constant development in this area means that today's engineering professionals have exciting and worthwhile careers.

Today's industry relies on technical innovation and constant development in this area means that today's engineering professionals have exciting and worthwhile careers. In 2013, more than 1 million cars were built in more than 70 different models and more than £30 billion* of export was generated.

The course is aimed at the prospective automotive technician who wants to work at the top of automotive engineering. This is the right course for you if you have a degree in engineering, production engineering or a related scientific field such as chemistry, application engineering or industry designing.

The course is designed to provide you with the level of hands-on experience and expertise you need to be successful in the market. They will be instructed by people who are committed pros in their fields and are backed by an outstanding selection of off-the-shelf gear. These include an open lab designing and analyzing softwares and a modern automotive lab with automotive and motor test benches that include a four-column driving simulation system, windtunnel and infrared cameras.

Working closely with the automotive research community, WMG has become a leader in the field. The graduation provides a comprehensive view of the various technological choices and methodologies for designing, systems integrating and verifying that will support the launch of new energy-efficient cars. Working closely with the automotive research community, WMG has become a leader in the field.

The graduation provides a comprehensive view of the various technological choices and methodologies for designing, systems integrating and verifying that will support the launch of new energy-efficient cars. The course is ideal for those who want to become research directors and technological leader in the strategic areas of automotive electrification/mobility.

They have the managerial ability, technological consciousness and visions to appraise various technological choices related to the environment and consumers' demands for car safety, dependability and efficiency. They are developing the ability to create and measure the next level of automotive product with a lower carbon footprint than traditional cars.

They get to know the latest research, technological innovation and managerial innovation, which are prerequisites for professional advancement in the global automotive indi-vation. Coremodules: There are four optional add-ons from the complete module listing, with a choice of nine suggested one. Part of the course will consist of presentations, workshop, internships, demonstration, classes, syndicate training and a reevie.

It is possible for all our clients to visit our facilities and the course will be evaluated by tasks. The program is comprehensively supported by domestic and multinational enterprises. If you are a graduate of a SAE, you can look forward to a leading position with a car maker or special provider. This program is ideal for those who want to become research directors and technological leader in the strategic areas of automotive electrification/mobility.

Designed with the needs and demands of racing engines makers in mind, it is the only program of its kind in the racing game. Designed with the needs and demands of racing engines makers in mind, it is the only program of its kind in the racing game.

This program is aimed at training high-qualified alumni who are prepared to take on sophisticated engineering tasks at large motor producers and their suppliers. Britain is a global market and global market-leading player in the motorsports and high-performance motoring industries - many of the world's most sophisticated high-performance motors are not far from our site in the British Motorsports Vall.

Its unsurpassed approach to the motor sports sector provides information and controls the program's design and implementation. As well as the powerful theoretical training courses, students acquire a thorough knowledge of how to create successful motors. The focus of our training is on our ultra-modern labs in a specially conceived technical centre. We' re known as a leading motorsports training institute - our motorsports heritage is recognized around the world and many of our alumni work for the most progressive high-performance motorsports brands like Ferrari and Mercedes HPP, all F1 crews and key motorsports industries subcontractors like Riccardo, Xtrac, Prodrive and Hewland.

Designed and implemented in partnership with the automotive and motorsports industries, our program is educated by experienced professionals, from long-time race engines, ranging from perfomance-roadcars, rally, IRL, kart and F3 to F1, and fitted with state-of-the-art facilities, including a series of race car, four motor test benches, analytic and mechanic test benches and state-of-the-art 3-D printings.

Our guest lecturers from the fields of economics and manufacturing will complement our presentations on topics related to industries, offering you job prospects and preparation for an interesting future of work. We also have strong ties with our peers in research and consultancy activities that allow us to incorporate the latest technologies and breakthroughs into our education and give our undergraduates the opportunity to carry out research with neighboring businesses also located in Motorsport Valley, while our well-financed research programs in areas of contemporary importance such as end-of-life cars, advanced composites and electrical cars.

They have the chance to join our renowned Formula Student Teams (OBR), which are supervised by our graduates and guest instructors from the motor sport world. They have the chance to work on our innovative V-twin motor concept and to choose this as their Ph. D. thesis subject, which can result in a doctorate.

Frequent trips to F1 crews, F1 electric crews and key automotive supplier companies offer the student the opportunity to discover the latest technological developments and technological developments - to get an impression of the activity within our division, see our 2015 highpoints. Certified by the Institution of Mechanical Engineers (IMechE) and the Institute of Engineering and Technolgy (The IET), who meet the full Chartered Engineer accreditation exam.

In order to be qualified for a Master's programme, you must complete the mandatory module, two elective courses and the Ph. Mandatory modules: Options Module Dissertations (Core, triplicate credit) is an individually tailored racing technology research proposal that offers the possibility to specialize in a specific field of high-performance motor.

Besides the development of your knowledge in a specialized area, using the use of standardized business applications and/or experiment work, the course also teaches you research competencies, design technologies and projectmanagement. While a large number of different types of research and development are available (e.g. McLaren, AVL, VUHL etc.), the student can also carry out his own research in Germany and abroad in order to work in cooperation with a research, trade or business group.

Since our training programs are checked on a regular basis, the selection of available training programs may differ from those described above. The training method includes classes and workshops to create a solid foundation in theories, and hands-on work to show important facets of system use. Guest lecturers from economy and economy give precious insight.

The best career prospects are enjoyed by our alumni, as literally a hundred engineering undergraduates have started a career in their area. Most of our undergraduates work with major motor sport firms, also directly in Formula One racing crews and subcontractors.

Mehr zum Thema