Top Universities in Europe for ms in Automotive Engineering

Europe's top universities for ms in automotive engineering

Up Print this page. For terms and conditions and tuition fees, click the plus sign at the top of the page. Valla Campus - Map of the University Hospital campus. Studied engineering at a British university: Many colleges and universities offer courses specialized in the automotive field.

Machinery and plant construction

The Master of Engineering or Master of Science in Engineering can take one of two forms: an academic qualification or a vocational qualification that emphasizes the abilities and the practice of research and the first. Some of the kinds of engineering courses available to you depend on the host countries and institutions in which you wish to do so.

In Australia, for example, the Master of Engineering is a two to three year research qualification with a dissertation, while in the USA and Canada the Master of Engineering is a two year vocational qualification after a four year Bachelor's in engineering. The four-year post-graduate Masters in Engineering (MEng) in the UK is aimed at preparing engineering graduates and can take up to five years to complete a year in MSc.

A number of universities in the UK now also have doctoral programmes. A wide diversity of engineering graduate programmes exist, with each institute providing a set of specialised training programmes aimed at creating professionals in the area. The Australian University of Melbourne, for example, provides a Master's programme investigating groundbreaking and lasting engineering approaches to solving engineering challenges, while the US University of Texas in Austin provides a M. Sc. in Oil Engineering with a focus on power engineering.

As an alternative, Eindhoven University of Technology in the Netherlands is offering architecture studies that take into account business, regulatory, political and ecological aspects, while the British Imperial College London is offering an MA in Biological Engineering with four different courses of study: bio-mechanics, bio-materials, medical physic and neuro-technology. The admission conditions depend on the kind and kind of engineering studies and the chosen specialisation.

The majority of Master's degree programmes in engineering sciences demand good marks at subgraduate levels, preferable in a related natural sciences, math, computer sciences or engineeringdisciplines. They can also be enrolled on the foundation of one-to-one classes that you have attended, with particular emphasis on MST. A number of Master's programmes with a higher vocational emphasis may call for employment in the engineering sector, while many of them provide the opportunity to carry out work placement under the programme.

Engineering is an interesting mystery when it comes to specialisations. Approximately eight major engineering sciences are often available as special study courses from basic studies onward. There are other sectors within these specialisations, whereby post-graduate qualifications are often devoted to these specialised areas. The following is a listing of the eight major engineering categories and some of the available sub-sectors:

Our oldest and most comprehensive technical specialization, machine construction, deals with the construction, manufacture and servicing of mechanic sys-tems. They overlap with many other engineering sciences and combine various engineering subjects into graduates such as the ETH Master of Science in Engineering from ETH Zurich.

The area of research covers the fields of air and surface craft engineering, research, development, engineering, test, science as well as technologies. In aeronautics and astronautics, aeronautics concentrates on airplanes and aviation dynamics, while aeronautics concentrates on spacecrafts and the extremes of orbiting. This kind of technique links scientific and experiential knowledge with biological, microbiological and biochemical methods to create industry based production methods from commodities.

Chemistry engeneers can be broadly grouped into two groups: those who work on establishing chemistry or biology and those who concentrate on the development of new or modified compounds. In the field of process engineering, nanotechnologies are the handling of materials at the nuclear and molecular level - an area that is becoming more and more important as the company tries to create smaller but better models of current materials.

The important engineering sector deals with the construction, construction and maintenance of the company's structure and has seen a lack of skilled alumni in recent years. It is subdivided further into the fields of construction, architecture, traffic engineering, geotechnics (with a focus on soils, rocks, mines and oil ) and water engineering (with large fluid bodies).

In recent years, it has become increasingly important and recognised as organisations and government give priority to protecting the enviroment. This prioritisation is a logical result of the fact that green building has become a favourite specialisation in underground engineering, focusing on green building technologies and best practice.

They are similar but different specialisations, often overlapping with engineering and construction and using computer and physical sciences. It is a fast-paced area that includes the evolution of circuitry used in computing and other cutting-edge techniques and will develop quickly as it becomes more and more sophisticated and involved in various facets of everyday use.

Over the past few years, this multidisciplinary discipline has expanded and universities have created special engineering programmes to meet the industry's need for management-oriented engineering. Typical study programmes include engineering and economics and economic knowledge, which are often acquired together by the engineering and economics universities. The MIT postgraduate programme System Design & Mangement ( "SDM") was thus joint development by the School of Engineering and the Sloan School of Mangement.

Biomedicine is a relatively new area that combines engineering, biomedicine and health care. The multi-disciplinary area of engineering deals with the research and developpment of technical and scientifical answers to biologic, hospital and medicinal issues. A recent Royal Academy of Engineering (RAE) study predicted 100,000 new experts in the fields of S&T Engineering, Economics, Engineering and Maths (STEM) per year by 2020.

According to RAE, the highest level of interest is seen in aeronautics and system engineering students, while Forbes has the greatest opportunity in engineering and industry, and a Georgetown University study forecasts the greatest deficits in the oil, aeronautics, chemicals and electronics industries. The US National Association of Colleges and Employers (NACE) found that engineering students receive the highest salary within the disciplines of Engineering, Economics, Technology, Engineering and Mangement.

In a joint survey of the bachelor's and master's qualifications of the world's billionaires, the economics journal Spear's and the research firm WealthInsight found that the vast majority of those interviewed have a MSc. All of these are encouraging results if your wish to be an engineer is motivated by the expectations of a high entry-level wage and a wide range of careers.

Besides the high level of interest, several recent years' accounts have shown that graduating with a master's in engineering can be an amazing pay, with US alumni averaging $75,000 per year and this number increasing to $99,000 for undergraduates.

The UK Engineering Council's Survey of Registered Enginers 2013 estimates that chartered engines will make 63,000 (~US$96,700) a year, with around 14% making more than £100,000 (US$153,000). There are some shared engineering pathways with engineering backgrounds that promise profitable perspectives in a variety of industries, organisations and companies:

From planning, producing and running industry operations in a plant to creating new and customized compounds and lab equipment, a chemistry technician can make about $81,400 a year, with the best priced work in petroleum and natural resources contributing over $100,000 a year. As a versatile industry spanning a broad spectrum of technical fields, machine builders can make an annual median of $83,000, while top-level engineering professionals make over $126,000.

With expertise in computer sciences, engineering and maths, we create, test and assess computer programs and sys-tems. Between $91,000 and $129,000 is what you can count on earning, with Google giving its senior engineering staff an annual basic pay of $124,520. When planning, designing and servicing electric controls and/or equipment through a mix of engineering expertise and economic consciousness, electronics designers can reckon with a profit of between $61,000 and $85,000.

A 2012 survey found that 55% of recruiters in the engineering industry found that good communications as well as engineering are as important when it comes to recruitment for engineering career. That might account for why many Master's degree programmes in engineering today place a great emphasis on the preparation of engineering graduates for engineering careers, thus focusing on the challenges engineers have encountered in the past when they were placed in managerial post.

Executives in engineering offices have comprehensive know-how of a specific technical specialisation as well as economic skills.

Auch interessant

Mehr zum Thema