Bachelor's Degree in Engineering in Europe

Compare Bachelor Programs in Engineering in Europe 2017

Engineering

Engineering is a broad field with many different industry possibilities. Taking a Bachelor in Engineering in Europe is a popular choice for many students from around the world, as there are many career prospects in a variety of industries. Aside from being home to some of the most prestigious universities in the world, Europe has much to offer the international student taking a Bachelor in Engineering degree, such as professional development opportunities, dynamic cities, a range of scenery, dynamic cities, and ease of travel throughout the country.

Taking a Bachelor in Engineering degree in Europe can open doors to many career possibilities in a variety of fields, depending on the interest and specialization of the student. Students can focus on such fields as aerospace engineering, computer engineering, environmental engineering, mechanical engineering, and civil engineering, to name a few. Most Bachelor in Engineering programs in Europe take a minimum of 3 years to complete and generally include coursework, projects, research, and practicum.

Take a look below through the Bachelor in Engineering programs in Europe and find the one that suits you best!

 

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BSc in General Engineering

Technical University of Denmark - DTU
Campus Full time 6 semesters August 2017 Denmark Lyngby

The bachelor's programme (BSc) in General Engineering is a new international BSc programme at DTU. The programme gives you broad engineering competencies, a solid technical-scientific foundation, and a strong international profile that prepares you for a challenging career in a global labour market. The programme is offered for the first time in 2016. [+]

Bachelors in Engineering in Europe 2017. The bachelor's programme (BSc) in General Engineering is a new international BSc programme at DTU. The programme gives you broad engineering competencies, a solid technical-scientific foundation, and a strong international profile that prepares you for a challenging career in a global labour market. The programme is offered for the first time in 2016. International profile The programme gives you broad engineering competencies, a solid technical-scientific foundation, and a strong international profile that prepares you for a challenging career in a global labour market. The BSc is taught exclusively in English, and you will be part of an international study environment with students from all over the world. Design/build projects You will be working on design/build projects during all six semesters. A design/build project is a practice-oriented group project in which your team solves a specific problem, going through the problem-solving phases typically experienced by engineers. This ensures that you learn to adopt an engineering approach during the programme. During the fifth semester you can study abroad at another university or work on a project in a Danish company. Specializations From the second year onwards, you begin to specialize in one of the four research areas where DTU and the Danish business sector are strongly represented: Living Systems Cyber Systems Cyber Materials Future Energy Future perspectives With a BSc in General Engineering you can—depending on your choice of specialization—apply for admission to a number of MSc programmes at DTU or another university. Possibilities include Biotechnology, Computer Science and Engineering, Materials and Manufacturing Engineering, or Sustainable Energy. Study programme Technical-scientific undergraduate programme The General Engineering programme is a technical-scientific undergraduate study programme. At the beginning of the programme, you are required to take a number of mandatory courses such as mathematics, physics and chemistry and you will experience the engineering spirit through design/build projects. In the final part of the programme you will specialize in one of the subject areas ‘living systems’, ‘cyber systems’, ‘cyber materials’ or ‘future energy’. Depending on your choice of specialization, you can continue your studies on a wide range of MSc programmes at DTU or other universities or pursue a career internationally. Programme structure and content The programme’s first two semesters consist of mandatory courses. Emphasis is placed on the basic natural science courses mathematics, physics, and chemistry with a technical bias, and design/build projects. During the second and third semesters, you must also choose two of the four courses that introduce you to one of the study programme’s four areas of specialization. These will help you choose the direction for further specialization. Entry Requirements You can apply for the programme on the basis of a Danish qualifying exam, or an equivalent international exam. In addition to having a upper secondary education leaving exam, you must have specific levels in English, Mathematics, Physics and Chemistry. Students holding a Danish qualifying exam are required to have: English B Mathematics A Physics B and Chemistry B or Physics B and Biotechnology A or Geoscience A and Chemistry B Students holding an international qualifying exam are required to have levels equivalent to the above. Nordic students and holders of an IB please read these instructions. Students with other international exams can find the information in the Exambook made by the Ministry of Higher Education and Science. English B corresponds to the testscores below: IELTS 6.5 TOEFL internet-based 88 TOEFL paper-based 573 TOEFL computer-based 230 Pearson 59 Cost & fees Higher education in Denmark is provided free of charge for all EU/EEA citizens and for students participating in an exchange programme. All other students have to pay tuition. Admission & deadlines If you hold a Danish qualifying exam: 15 March (quota 2) or 5 July (quota 1) If you hold an international qualifying exam: 15 March *Please note that all non-EU/EEA applicants are required to pay an application fee of €100 [-]

Bachelor in Electrical and Electronic Engineering

HAN University of Applied Sciences
Campus Full time 4 years September 2017 Netherlands Arnhem

How can sustainable energy be generated more efficiently for the power grid? How can machines and devices be made smarter and more user-friendly? How can new technologies like the electric car and the e-step be further developed? Electrical engineers work on these kinds of challenges every day. [+]

How can sustainable energy be generated more efficiently for the power grid? How can machines and devices be made smarter and more user-friendly? How can new technologies like the electric car and the e-step be further developed? Electrical engineers work on these kinds of challenges every day. Are you up for the challenge? The bachelors course in Electrical and Electronic Engineering at HAN will give you the innovative edge that sets you apart from the rest. What can you expect? The bachelor course in Electrical and Electronic Engineering is a 4-year full-time degree course that trains you to become a developer in one of two main fields: Industrial and Power Systems Embedded Systems Later in your career you can develop further in the field as a specialist, consultant or project manager. Motivated students from all over the world HAN's Bachelors course in Electrical and Electronic Engineering attracts motivated goal-oriented students like you from all over the world. Our study programme gives you the required theoretical and practical expertise together with necessary market information and insight to stay on top. Lecturers with experience in the field Our lecturers have worked as researchers and in commercial enterprise. Some are currently still working in the field, which ensures that you get the most up-to-date information and techniques! Career opportunities As an electrical engineer, you will be an independent professional equipped to work in different industrial settings. Some examples of international companies you could work for in the Netherlands: TenneT, one of Europe’s top five electricity transmission system operators Liander, a regional grid operator in the Netherlands NXP, Nedap or Thales, all Dutch companies operating internationally Course Overview Electrical and Electronic Engineering is the international and English-language equivalent of the degree course offered in Dutch. Except for the language of instruction, the two study programmes are identical in terms of both content and level. Introduction to electrical engineering In your 1st year, you will get an introduction to the wide field of electrical engineering. You will learn about fundamental theories and apply your new knowledge in small group projects, which deal with problems from the field. These projects help you to develop your problem-solving and communication skills. They also give insight into current issues that are relevant to professional practice. Putting your knowledge to work You will put your knowledge to work throughout the course. For example, during projects with students from other Engineering domains such as mechanical engineering and industrial design. And in your 3rd year you will further deepen your knowledge and experience by embarking on a 6-month work placement. The faculty has close ties with companies such as TenneT, Thales, NXP and more. You might do your work placement there, or at other companies in the field. Academic year The academic year starts in September and ends in June. It is spread over 42 weeks and is divided into two semesters each divided into two blocks. You take exams, write reports and give presentations at the end of each term. Your course instructors will evaluate your work each semester and advise you on your progress. They will also coach you so that you can achieve the best results possible. Academic progress Students can obtain a maximum of 60 European Credit Transfer System (ECTS) credits per academic year. After the first year students must have gained 37.5 credits in order not to get a Binding Negative Study Advice (BNSA). A BNSA means that you cannot continue your studies in your Bachelor program. HAN is required to report to the Dutch Immigration and Naturalization Service (IND) on the BNSA of the students holding a residence permit for study purposes. This has consequences for your residence permit. Diploma Supplement A candidate who is awarded a diploma on completion of the final assessment, will receive an English-language Diploma Supplement. The Diploma Supplement is set up in accordance with the format determined by HAN's Governing Board and with the additional regulations determined by the Board of Examiners and/or faculty management. A Diploma Supplement includes the name and signature of the president of the Board of Examiners and an official HAN University of Applied Sciences stamp. The Board of Examiners ensures that a copy of the Diploma Supplement is filed and kept indefinitely. [-]

Bachelor of Electrical and Automation Engineering (BEng)

Häme University of Applied Sciences (HAMK)
Campus Full time 4 years September 2017 Finland Hämeenlinna

In the English-language degree for Electrical and Automation Engineering, the focus is on utilising automation engineering in new areas of application. The efficient and inexpensive new data technology devices in particular offer many interesting opportunities for automation technology. [+]

Bachelors in Engineering in Europe 2017. HAMK: Higher Education with a Professional Profile​​ About the Program ​An engineer specialised in Electrical and Automation Engineering knows how to plan electrification and automation both for ordinary household appliances as well as complicated industrial production equipment. There are two alternate learning paths available for automation engineering students: production machinery automation and production process automation. The engineer knows how to utilise information and electrical technology in developing automation technology in new applications. Vehicles, shops, homes, industry, traffic control and street lighting are examples of the ​most common applications of electrical and automation engineering. Instruction in electrical and automation engineering focuses on wide-ranging studies in electrical engineering, the automation of production machinery and devices, and the maintenance of production facilities. The possibilities offered by new technology are utilised in the instruction, in the practical studies that include plenty of personal, first-hand activity. In the English-language degree for Automation Engineering, the focus is on utilising automation engineering in new areas of application. The efficient and inexpensive new data technology devices in particular offer many interesting opportunities for automation technology. An electrical and automation engineer typically works in a high-tech company in tasks involving planning and expertise, and later, as experience mounts, in various supervisory tasks. Such tasks are available in production facilities, design and consulting offices and companies specializing in software and hardware sales. The work is nearly always group work with experts from different fields in an international working environment. In Production Machinery Automation students learn about the most important functions and equipment for the production of parcelled goods as well as efficient and cost-effective equipment technology based on new-technology microcontrollers. Skills involving production equipment and new technology serve as a foundation for the planning and implementation of functional and efficient automation of production. ​1st year ​2nd year ​3rd year ​4th year ​Development of Technology, 15 CR Electric Power En​gineering, 15 CR​ Automation and Electrical Wiring Design, 15 CR Production Automation, 15 CR Natural Sciences in Electrical Engineering, 15 CR ​Programming and Information Security, 15 CR ​Applications of Automation Engineering, 15 CR ​Thesis, 15 CR Natural Sciences in Automation Engineering, 15 CR ​Embedded System, 15 CR ​Automation and Control, 15 CR Free timing ​Information Technology in Automation Engineering, 15 CR Profiling Module, 15 CR Profiling Module, 15 Work Placement, 30 CR In Production Process Automation students become familiar with the most important functions and equipment of the process industry, as well as industrial maintenance. Knowledge of a continuous process and its maintenance is the basis of successful planning and implementation of process automation. ​1st year ​2nd year ​3rd year ​4th year Development of Technology, 15 CR ​Electric Power ​​​En​gineering​, 15 CR Automation and Electrical Wiring Design, 15 CR ​Profiling Module, 15 CR ​Natural Sciences in Electrical Engineering, 15 CR Programming and Information Security, 15 CR Applications of Automation Engineering, 15 CR Thesis, 15 CR Natural Sciences in Automation Engineering, 15 CR Process Automation, 15 CR Maintenance, 15 CR Free timing ​Information Technology in Automation Engineering, 15 CR Profiling Module, 15 CR Automation and Control, 15 CR Work Placement, 30 CR The Industrial Management and Logistics Module is available to all students. The module is implemented virtually. This module is recommended especially to students who have chosen the profile production process automation. Professional Skills of Automation Engineering The professional skills of an engineer of electrical and automation engineering (B​Eng) consist of several sub-sectors. Their content is briefly described below. Basic skills in electrical and automation engineering comprise measuring technology, data and software technology in the electric and automation field, mathematical methods, physics and electronics. Planning skills include processes, methods, and tools for planning, simulation methods, sizing and choosing devices and components, drafting documents, applying standards, quality systems and life-cycle thinking. Electricity and equipment safety skills include key legislation, regulations and standards related to electricity and equipment safety. Corporate and production skills include project activities, people management, entrepreneurship, marketing, and maintenance. Application skills include electrical and electric energy systems, building automation process automation, production automation, and on a general level, the application of technology to new ranges of use. Process, equipment, and system skills include the most important methods and equipment for electricity production, the most common production processes and machinery, the sensors, transmitters, and regulating units to be used in them, as well as guidance and regulatory systems. Automation Engineering Study Modes ​​In Automation Engineering students will study together in weekdays monday to friday between 8-16. Studying is equivalent to working at a job: the student is present and works together with others in a diverse way. Daily learning situations could be: Traditional classroom learning. Laboratory work and exercises. Learning by doing practical exercises, projects etc. Learning at the workplace – projects from working life, an internship etc. E-learning at home or anywhere. [-]

Bachelor of Engineering

Macquarie University
Campus Full time 4 years January 2017 Australia North Ryde

A flexible and comprehensive four year degree with a strong focus on practical learning that prepares you to work as an engineer. With a campus located... [+]

Bachelor of Engineering

A flexible and comprehensive four year degree with a strong focus on practical learning that prepares you to work as an engineer. With a campus located in one of Australia’s leading high-technology precincts, Macquarie is a great place to study engineering. Engineering at Macquarie is unique because you learn about electronic, software and mechanical engineering before you specialise according to your interests and goals. This integrated learning approach provides you with the skills employers look for in this fast growing and rapidly changing field.

Key features

A common first year enables students to transfer easily between engineering majors, except for software engineering. The Engineering Industry Partnership Program creates opportunities for students to engage with our industry partners throughout their degree. Focus on industry experience culminating in a 16-week final year project. By adding just one more year of study the degree can be combined with other degree programs such as Science, Arts or Commerce. ... [-]

Bachelor's Degree in Engineering Sciences

University of Tor Vergata
Campus or Online Full time 3 years September 2017 Italy Rome

Plan 36 months of your life to get a new Bachelor's Degree in ENGINEERING SCIENCES (at Tor Vergata, since 2010 ) [+]

Bachelors in Engineering in Europe 2017. Bachelor's Degree in Engineering Sciences Plan 36 months of your life to get a new Bachelor's Degree in ENGINEERING SCIENCES (at Tor Vergata, since 2010 ) (3 years/180 credits) characterized by: International environment (all lectures are taught in English); Strong background in basic sciences (mathematics, physics, chemistry, informatics); Excellent preparation in mechanics and electronics; Highly flexible curriculum: 30-credit packages are offered, that grant access to their respectively Master's Degrees in Engineering (taught in italian), without debts. For "Automazione", "Gestionale" and "Informatica" the access to the Master's Degree is subject to an evaluation of the background and ECTS debts can be assigned. class I9 course K73 Mathematical Engineering (taught in English) ICT and Internet Engineering (taught in English) Admission ADMISSION FOR ITALIAN STUDENTS You are supposed to apply for an admission test(ONLY FOR ITALIAN STUDENTS) in this time: July-August 2017 The TEST will take place on campus at the beginning of September (September, 2017) Student's Guide Italian citizens holding a foreign qualification info from: www.study-in-italy.it ADMISSION FOR FOREIGN STUDENTS (non-EU citizens outside Italy) ASSESSMENT from the 1st of February, 2017 to the 30th of May 2017. NEW deadline 30th June!! (NOT for student enrolled at other Italian Universities, who only need to move to Tor Vergata) Make the ASSESSMENT - more INFO (ONLY FOR FOREIGN STUDENTS) Wait for our replay in order to schedule a date for an interview by skype, with Prof. Roberto VERZICCO. You will be selected on the basis of your curriculum and knowledge of the English language. If selected, you must contact the Italian Embassy in your country to make the pre-enroll (deadline 30 may 2015). When you come to Italy the "International Students Office" will show you the registration procedures. (the first installment is to be paid in November, and the lessons start in October) info on "stay permit": Please remember that all non-EU students who obtain a visa for study reasons must apply for a stay permit no later than 8 days after their arrival. Foreign Students (non-EU citizens) Transfer from other italian Universities In case a foreign student, already enrolled at an Italian university, has given up his studies and requires a new registration at the same or another university, he can not use the stay permit for study purposes released during the previous registration. The formalization of the abandonment of studies determines the disappearance of the requirements for residence in the territory of the State and consequently, the revocation of the license. The student must return to his country to ask for a new resident permit for study. Tuition Fees Students have to pay the regular University tuition fee that varies between € 458 (in case of family income less than €6.500per year) and € 1.902 (in case of family income greater than €84.000 per year). The fee does not cover the costs of residential accommodation, transport, food or study materials. In addition to this fee, students have to pay the annual Course specific tuition fee of € 1.000 (with or without lazioADISU scholarship). !!! Pay particularly attention to this ADDITIONAL FEE (€ 1,000 per year) go to http://delphi.uniroma2.it/ _______________________________________ BANDO for scholarship (LAZIOADISU) deadline of July 28, 2017 [-]

Electronic Engineering BEng Honours

University of Westminster - Faculty of Science and Technology
Campus Full time 3 - 4 years United Kingdom London

Electronic systems have become prevalent in modern society and are used in a wide range of applications such as in smart phones, intelligent robots, autonomous vehicles, satellite positioning systems as well as healthcare instruments. The course aims to provide an exciting, enjoyable and rewarding learning experience which will serve as a solid foundation for a professional engineering career. [+]

Electronic systems have become prevalent in modern society and are used in a wide range of applications such as in smart phones, intelligent robots, autonomous vehicles, satellite positioning systems as well as healthcare instruments. The course aims to provide an exciting, enjoyable and rewarding learning experience which will serve as a solid foundation for a professional engineering career. The strong mathematical and theoretical teaching approach of this course, coupled with its practical project work, will equip you with the know-how to become a professional electronic system designer or researcher. Course content The course develops engineers with a solid base in the fundamentals of analog and digital electronics, digital communications, signal processing as well as wireless systems. The course develops the skills necessary for the design, implementation and testing of electronic and microelectronic analog and digital circuits, embedded systems as well as modern data transmission systems. Project-based learning forms an integral part of the course, with project modules being highly valued by employers. These projects include the design, construction and testing of an analog voice-over amplifier, a maze-solving autonomous robot as well as a full-custom design and implementation of a digital system utilizing industry standard design tools. The projects are also designed to enhance your practical skills as well as develop your teamwork and project management skills. The course shares a common Year 1 with the Electronic and Electrical Engineering as well as the Computer Systems and Robotics BEng Honours degrees, and if you wish you can transfer courses at the end of that year. Teaching methods include lectures and seminars, laboratory work, group and individual projects and mobile learning. Assessments include formal exams, group work, written reports, presentations and posters. Year 1 (Credit Level 4) Subjects of study include: Analog Electronics Digital Systems Embedded Systems Project Engineering Programming Mathematics and Engineering Principles Signals, Systems and Communications Year 2 (Credit Level 5) Subjects of study include: Analog System Engineering Digital System Design and Implementation Professional Engineering Practice and Industrial Management Robotic Systems Project Signals and Communication Engineering Plus one option from: Electrical Engineering Principles Robotics Principles Industrial placement year You will have the opportunity to take a placement in industry between Years 2 and 3. This gives you practical experience in the workplace and a competitive edge in the job market. It also contributes to your professional development towards Chartered Engineer status. Year 3 (Credit Level 6) Subjects of study include: Analog Microelectronics Individual Project in Electronic Engineering Plus three options from: Algorithm and System Implementation Communication Systems Digital Signal Processing Design Embedded and Real Time System Architecture Professional recognition These courses are accredited by the Engineering Council and the Institution of Engineering and Technology (IET), enabling you, as a graduate, to become a Chartered Engineer after a period of professional experience. In the case of the BEng award, further study to MEng level is also required. [-]

Bachelor in Industrial Thermal Power Engineering

Samara State Technical University
Campus Full time 4 years September 2017 Russia Samara

Future specialists master the theoretical foundations and learn how to operate the modern industrial cryogenic equipment, to deal with steam production, hot water and electricity in thermal power plants and boilers and compressed air in the compressor stations. [+]

Bachelors in Engineering in Europe 2017. Industrial Thermal Power Engineering About school/organization: The Faculty of Thermal Power Engineering was established in 1956. Leading professors with PhD degrees or Doctor of Science degrees train students to become skilled personnel in the steam power industry. About the University (history, modern improvements, school mission, awards/accreditations) Established in 1914 Samara State Technical University is committed to the purity of science, research and innovation. Our Aim is to facilitate market needs in the areas which we specialize with students equipped with directly applicable skills. And we can honestly say that university alumni successfully put into practice acquired knowledge. Nowadays the University embraces 3 main campuses, 17 educational buildings, 8 dormitories, more than 50 research centers, 2 sport complexes and 3 recreation centres. The University is licensed by the Ministry of Education and Science of the Russian Federation to implement the educational activity in the field of higher education (License № 1938 from 17 February 2016). The University is accredited by the Ministry of Education and Science of the Russian Federation (State Accreditation Certificate № 1676 from 22 January 2016). Things that make the program special Future specialists master the theoretical foundations and learn how to operate the modern industrial cryogenic equipment, to deal with steam production, hot water and electricity in thermal power plants and boilers and compressed air in the compressor stations. They learn to handle the problems of heating, air-conditioning and hot water supply of residential and industrial buildings, energy conservation, heat waste, air purification and industrial gases. Outcome for graduates Industrial Thermal Power Engineering is a broad professional field which gives the graduates certain flexibility in a career choice. They are able to efficiently use the obtained knowledge and skills in a wide range of industrial and scientific activities. Application deadlines The Application procedure for the program ends on August 19th Start Dates The Application procedure for the program starts on June 1st Admission process - Fill in an Application Form - Email the Application Form, a copy of your passport and copies of your educational documents in English or in Russian. - Wait for the official reply from the University ( about 2-3 weeks ) - Translate and notarize your educational documents in the Embassy of the Russian Federation in your country - Apply for a Student Visa in your country - Upon arrival to Samara submit all the original documents - Sign the Contract and pay the tuition fee for the first semester/year Applicants who do not speak Russian are enrolled for the one-year Preparatory course, take an exam of the Russian language and after that submit the documents for the degree program. Entry requirements (language, previous degree or training, etc.) Entry exams: 1) Mathematics 2) Physics 3) Russian List of documents: International passport Migration Card (you'll get it at the Russian cross-border control) 6 colour photos (size 3 x 4) Educational documents (high school certificate) and their certified copies, translated into Russian and notarised by a certified solicitor in the home country of the candidate. a certificate of health, issued by the official body of the home country and the original medical certificate that proves HIV-negative result taken within the last 30 days Length of program 4 years of full-time study Cost 126 200 rubles per year Scholarship information International applicants have an opportunity to receive the scholarships from the Russian Government. To apply for such scholarships you should contact the Representative office of Rossotrudnichestvo in the country of your residence. [-]

BEng Civil Engineering

Edinburgh Napier University
Campus Full time 4 years September 2017 United Kingdom Edinburgh

Learn the fundamentals of civil engineering and the specifics of structural analysis, construction surveying, geotechnical engineering and relevant computer applications. [+]

Learn the fundamentals of civil engineering and the specifics of structural analysis, construction surveying, geotechnical engineering and relevant computer applications. The world is full of infrastructure. As a civil engineer, you’ll be responsible for its design and construction. From bridges, roads and buildings to dams, pipelines and airports, you’ll learn the skills needed to develop the systems and structures that allow our society to operate efficiently. What you'll learn Combining mathematical and design skills, as well as communication and management abilities, a civil engineering role will appeal if you have an enquiring, technical mind and love problem solving. The Honours course is accredited by the Institution of Civil Engineers, the Institute of Highway Engineers, the Chartered Institution of Highways & Transportation and the Institution of Structural Engineers. This degree is accredited as fully satisfying the educational base for an Incorporated Engineer (IEng). See www.jbm.org.uk for further information. You will study the same modules, and complete the same course work as a full-time student, but over a longer period of time. You’ll generally come in to University for one day per week, and a four-year Honours degree will take around six years to complete part-time. Careers Qualified and accredited civil engineers are in high demand for positions in companies and projects all over the world, and this course has been designed to meet the needs of employers. Career opportunities construction companies consulting engineering companies utility companies (e.g. water, electrical and gas) local / national government contractors You may also have the opportunity to continue on to further study at Masters and PhD level. Entry requirements Minimum Year 1 SQA Higher BBBC including Higher Maths. National 5 B in English. A Level CCC including Higher Maths. GCSE Grade B in English. Irish Leaving Certificate Pre 2017: B1,B3,B3,B3 at HL including Maths + OL English at B3 2017 onwards: H2,H3,H3,H3 at HL including Maths + OL Maths and English at O3. BTEC Extended Diploma MMM (Merit, Merit, Merit) in a related subject. GCSE Grade B in English. BTEC Diploma MM (Merit, Merit) in a related subject plus A-Level grade C. GCSE Grade B in English. International Baccalaureate 27 points overall with three HL subjects at grades 6, 5, 4 including HL Maths at 5. SL English at 5 points. Minimum Year 2 SQA Advanced Higher BBC including Maths A-levels AAB including Maths HNC Pass in a relevant subject with Grade B in the graded unit. Must include Mathematics for Construction (SCQF Level 6) and Maths for Civil Engineering (SCQF Level 7) or equivalent Maths modules. Minimum Year 3 HND Pass in a relevant subject with Grade BB at SCQF Level 8 in the graded units. Must include Maths for Construction (SCQF Level 6), Maths for Civil Engineering (SCQF Level 7) and Applied Maths for Civil Engineering (SCQF Level 8) or equivalent Maths modules. Irish Ordinary Degree 50% at first sitting in all final year subjects. DUT Pass DUT with overall grade 12 to include English at grade 11 in final year of studies. Minimum Year 4 Irish Ordinary Degree 60% at first sitting, with minimum 50% in all final year subjects. English language requirements If your first language isn't English, you'll normally need to undertake an approved English language test and our minimum English language requirements will apply. This may not apply if you have completed all your school qualifications in English. Tuition fees Students from 2016/17 2017/18 Scotland/EU £1,820 £1,820 England Wales and Northern Ireland £9,000 £9,000 Overseas £13,740 £13,900 [-]

MEng General Engineering

The University of Warwick, School of Engineering
Campus Full time 4 - 5 years October 2017 United Kingdom Coventry

The General Engineering degrees offer an ideal entry route if you intend to specialise but want to delay your decision as to which specialist course to follow until later in your studies. They also offer a [+]

Bachelors in Engineering in Europe 2017. The General Engineering degrees offer an ideal entry route if you intend to specialise but want to delay your decision as to which specialist course to follow until later in your studies. They also offer a route if you are one of those students who wish to design their own engineering degree course in their final year. BEng students may choose options from across the range of modules offered to other engineering degree courses. As well as providing an opportunity for you to continue with a broad education in engineering this degree also enables MEng students to create a unique degree course tailored to suit their fourth year elective choice. This is the only degree available with any of our five electives. A broad engineering education provides for a range of career opportunities such as project or contract management within engineering companies or it could enable you to exploit your engineering knowledge in careers such as teaching or journalism. Degrees available in General Engineering BEng Engineering MEng Engineering MEng Engineering with Sustainability MEng Engineering with Business Management MEng Engineering with an Intercalated Year MEng Engineering with a Year in Research What you'll study For the first two years, all students follow the same programme. The course is designed to give you a broad overview of engineering, much favoured by industry. In year three you are able to specialise, or continue the General Engineering route. At this stage you can also chose between progressing on the an MEng or BEng route.* Placements in industry or research Gain hands-on experience on a year out or during the Summer vacation. Undertaking a placement is a great way to apply what you've learnt at university, to a real-life situation. We regularly advertise opportunities and the Careers and Skills Centre are here to help too. Placements can be undertaken in industry or research, to suit your career aspirations. Many students are subsequently offered employment with the companies with which they spend their placements. Students undertaking an industrial placement will spend one year at an approved Industrial Placement between the second and third, or third and fourth years. Teaching We use a variety of teaching methods, ranging from lectures and group tutorials to small groups in laboratories. You are allocated a personal tutor, who stays with you throughout your time at Warwick. They will help you get the most from your studies. Computer laboratories loaded with specialist software, are open 24/7, helping you undertake work at a time to suit you. Assessment Students are assessed by a mixture of coursework and written examinations. Design-orientated work is assessed by oral presentation, project work and group assignments. Projects are assessed by a variety of methods, including oral presentations, written reports and posters. Career opportunities Typical destinations range from research and development positions within industrial or academic establishments, to design and manufacturing posts in car companies or the supply industries. [-]

Bachelor in Mechanical Engineering

University of Derby
Campus Full time Part time 2 - 5 years September 2017 United Kingdom Derby + 1 more

Become one of the elite of the engineering profession – a Chartered Engineer (CEng). This degree is accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of partially meeting the academic requirement for registration as a Chartered Engineer. [+]

Why choose Bachelor in Mechanical Engineering? Become one of the elite of the engineering profession – a Chartered Engineer (CEng). This degree is accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of partially meeting the academic requirement for registration as a Chartered Engineer. You can work on exciting extra-curricular projects such as the Shell Eco-marathon. The Mechanical Engineering Shell Eco Team were recently awarded with a sponsorship for £9,000 to build the prototype ethanol vehicle for the 2016 competition. You can gain valuable experience on an optional work placement. Alternatively, you can study our four year BEng (Hons) Mechanical Engineering with Industrial Year course. You'll learn from academic staff with extensive industrial experience. About this course You'll specialise in modules essential to a modern mechanical engineer, such as Computer Aided Design, Structural analysis, Vibration and Dynamics and Thermofluids. Plus you'll study specialist modules such as Computational Fluid Dynamics and Advanced Thermodynamics. The individual project module wil give you real experience of solving an engineering problem in industry. It's an excellent way for prospective employers to assess your skills for your first job or for career development. We encourage all second years to take a work placement in industry, which will also give you an additional qualification - the Diploma in Professional Practice. If you don't have the appropriate qualifications to start this course, you can study the Engineering and Technology Year Zero for a year first. A world leader in engineering Derby based engineering giant Rolls-Royce contributed £7.8billion towards the UK's GDP last year, and they have an order book worth more than £60billion which is ten times the size it was in 1992. Success of technology companies like Rolls Royce means that Derby is the UK's highest-earning city outside the South-East, with salaries at two-and-a-half times the national average. The company spends millions of pounds each year attracting the best available graduate talent and it employs more than 12,000 people in Derby, so you couldn't be better placed to start your engineering career. What you will cover You'll study a total of 120 credits per year. This will be made up of single or double modules. Careers and employability You could also go on to study our MSc Mechanical and Manufacturing Engineering and work towards becoming a Chartered Engineer. [-]

Bachelor of Engineering (Honours) Electronic Design Engineering (Top-up) (Awarded by Northumbria University, UK)

Management Development Institute of Singapore (MDIS)
Campus Part time 12 months August 2017 Singapore

As a graduate from this course you will probably be looking for managerial roles in the design and industrial engineering industry. Alternatively, you may choose to use your project management skills in the technology industry or build on the entrepreneurial part of the course to set up your own business... [+]

Bachelors in Engineering in Europe 2017. Objectives The programme aims to produce graduates who can: - Apply key electronic engineering concepts and design skills in the modern engineering environment. - Innovate and be creative in the design of new electronic products, devices or components. - Conduct experimental work and generate appropriate data to evaluate concepts and deepen understanding. - Draw upon a broad knowledge of engineering business practice and integrate design in a business context. - Demonstrate an understanding and apply the competencies required to create and operate a business. It is anticipated that students graduating from this programme will be able to take up a range of engineering roles and make immediate and valuable contributions to engineering businesses. Assessment methods The modules will be assessed either by coursework, examinations or a combination of both appropriate to the module objectives. Career Opportunities As a graduate from this course you will probably be looking for managerial roles in the design and industrial engineering industry. Alternatively, you may choose to use your project management skills in the technology industry or build on the entrepreneurial part of the course to set up your own business. Modules Project Management & Professional Development Microcontrollers in Embedded Systems Electronic Systems Design Principles of Wireless Mobile Networks Design Engineering Project Entry Requirements Applicants must be of age 18 and above and meet at least one of the following requirements: Relevant diploma from polytechnics in Singapore HND in Electrical and Electronic Engineering Recognised equivalent Additional Requirements Minimum C6 pass in English Language (EL1) at GCE ‘O’ Level or equivalent; Applicants who do not meet the English requirements are required to pass the following: Achieve a minimum of 79 points in the TOEFLiBT (Test of English as a Foreign Language internet based test) ; including the following minimum scores in the component skills tests: Reading – 18, Writing – 17, Listening – 17, Speaking – 20; OR A British Council International English Language Testing System (IELTS) score of 6.0 (or above) with a minimum score in each component of Reading, Writing, Listening and Speaking of 5.5; OR Pearson Academic score of 54 (or above) with a minimum score in each component of Reading, Writing, Listening and Speaking of 51; OR Minimum 50% in MDIS Professional Certificate in English (PCIE) Sit and pass the English Entrance Test conducted by MDIS with a minimum score of 50% Recognised equivalent [-]

Bachelor of Engineering in Electronics Engineering

Malta College of Arts, Science and Technology
Campus Full time 4 years September 2017 Malta Paola

The aim of this degree is to develop qualified engineers who are both academically prepared and practically trained to satisfy the requirements of local industry. [+]

The aim of this degree is to develop qualified engineers who are both academically prepared and practically trained to satisfy the requirements of local industry. Moreover, these graduates will be suitably prepared to embark on careers or further their studies abroad. Electronics is still a highly relevant and attractive technological field that has evolved at a rapid rate. This interdisciplinary field is practically used in every aspect of modern life as exemplified by the advances in computers and communications. The course will bring students in contact with the modern technologies and gives an in-depth mix of knowledge and skills. Assessment The purpose of assessment is to ensure that effective learning of the content has taken place. For each unit delivered students will be assigned a mixture of home-based and time-constrained assignment in class. At the end of the course students will also present their thesis. Core Study Units Digital Signal Processing Signals and Systems Analogue Electronics Control Systems Theory Advanced Digital Electronics Microcontrollers Software Design and Analysis Entrepreneurship Advanced VHDL IT and Networking Fundamentals Mathematics Design with FPGAs Advanced Microcontroller Applications and Digital Signal Processing Power Electronics – Generic Circuits and Power Supply Applications Power Electronics – Motor Drives Programming for Engineers Practical Mixed Signal Electronics Design DSP Applications Thesis Programme Learning Outcomes Design and implement hardware and firmware for embedded systems applications Design and evaluate complex analogue and digital electronic circuits to meet set specifications for various engineering applications Manage projects involving the installation and maintenance of engineering systems Contribute in the development of research projects in the field of electronic engineering. Career Opportunities Design engineer Electronic engineer Electrical engineer [-]

BEng Energy and Environmental Engineering

University of Wales Trinity Saint David
Campus Full time 3 years August 2017 United Kingdom Swansea

With the world’s population is set to reach nine billion in 2050, obtaining enough clean water, air, land, food and energy becomes even more difficult an issue for modern society. Our Energy and Environmental Engineering degree equips graduates with the skills and knowledge to be 21st century engineers prepared to meet the environmental challenges of industry and society. [+]

Bachelors in Engineering in Europe 2017. With the world’s population is set to reach nine billion in 2050, obtaining enough clean water, air, land, food and energy becomes even more difficult an issue for modern society. Our Energy and Environmental Engineering degree equips graduates with the skills and knowledge to be 21st century engineers prepared to meet the environmental challenges of industry and society. Course Overview The BEng Energy and Environmental Engineering programme is intended to provide students with a thorough grounding in mechanical engineering science and then apply this to the environment. In addition, students will develop knowledge in a suitable range of manufacturing processes and materials. The programme will also consider environmental aspects of design and technology and will enable students to gain a range of skills, relevant to a broad range of employment opportunities. Key Features Everyone is a student of the University of Life however some of the lessons learnt can take a long time to be recognised and understood. Studying for a degree is a means of identifying where problems exist in any given industry and the understanding how potential solutions, learnt through a programme of study, can help to avoid or mitigate the effects of these problems. A structured programme allows a student to build upon lessons learnt and reflect upon the impacts of decisions made. [-]

Bachelor of Engineering in Information Technology (BEng)

Oulu University of Applied Sciences (OAMK)
Campus Full time 42 months Finland Oulu

The principal aim of the education is to provide students with good skills in programming. A graduate is able to design and program Internet services and applications for pc, linux and mobile environments. Students have essential web development skills related to current Internet technologies and protocols, web graphics and multimedia, web authoring and design and web programming. Courses cover the major... [+]

Bachelor of Engineering in Information Technology (BEng) The principal aim of the Bachelor of Engineering in Information Technology (BEng) programme is to provide students with good skills in programming. A graduate is able to design and program Internet services and applications for pc, linux and mobile environments. Students have essential web development skills related to current Internet technologies and protocols, web graphics and multimedia, web authoring and design and web programming. Courses cover the major server frameworks, databases and associated development environments. They also include client side technologies together with user experience competence. Technical expertise focuses on the technology, applications, and future trends of Internet service development. Students learn to document their work and to manage in different communicative and interactive situations and apply international knowledge and competences in their own field. Foreigners learn basics of the Finnish language. Studies in mathematics and physics support the usage of multimedia tools. Software development skills and business knowledge are gained in real life projects in companies. Professional studies consist mainly of software development, web-technologies, user experience and business studies. This programme encompasses the major frameworks and software architectures on the Internet today. Course work provides comprehensive training for professional working on e-commerce, enterprise applications, and interactive websites. First the students get a basic knowledge of programming, databases, teamwork and communication. Then they are able to participate in a software project. Later they are able to study advanced programming and deepen their knowledge in server programming, mobile application features, different mobile systems, development environments, and mobile technologies. The students also learn about game development, design and tools. The students are able to work as members of a software development team, as designers, programmers and managers. Student Testimonial Career Outlook Graduates start their career in computing industry or set up their own businesses. They will find employment in companies of all sizes. Typically, they will have one of the following job titles as they start work: web developer/programmer/designer, web application developer or GUI designer. The practical teaching consists of lessons, workshops, project works, assignments,presentations, remote studies and company visits. Students learn mainly by doing. Practically oriented teaching methods and facilities corresponding to those of industry enable students to find and apply information as well as get them skilled at using professional tools and equipment. There are three large projects in the curriculum. Subjects for the projects are given by the enterprises in Oulu and Raahe region and can include tasks like e.g. software design, implementation and testing. These projects together with the practical training and the thesis give a possibility to work in a company for more than a year during the studies. This path is a good start to the professional career. Through project-based learning students can improve their problem-solving, research, and social skills. The evaluation is based on written exams, project and assignment reports, and workshop presentations. Multiculturalism and English as a working language are adopted on our international campus. Students can also study abroad at the partner universities and include completed studies in the degree. The degree programme in Information Techonology gives you versatile career possibilities. After graduating students will have diverse knowledge and skills to act in software designing, product developing and as an expert in the field of information industry. The job title could be one of the following: Web developer or programmer Web designer Web application developer User interface designer Project manager Senior software engineer [-]

Bachelor in Business and Engineering

University of Applied Sciences Würzburg-Schweinfurt
Campus Full time 7 semesters September 2017 Germany Würzburg

A business and engineering degree combines two different academic areas, allowing you to find work in both the specialised, technical engineering arena and the management industry. [+]

Bachelors in Engineering in Europe 2017. A business and engineering degree combines two different academic areas, allowing you to find work in both the specialised, technical engineering arena and the management industry. Students will be trained for a variety of professional areas, e.g. manufacturing companies, engineering offices, banks, insurance, consulting firms, commercial enterprises and public service. Our graduates benefit from excellent opportunities to start their careers, and will continue to have good prospects in the future. The combination of technical and non-technical study modules serves as the basis for both conventional and new fields: sales and marketing, logistics, materials management and purchasing, production and manufacturing, controlling, accounting, organisation, and data processing. Graduates benefits from a highly respected German engineering qualification, contacts within industry and excellent career prospects. Course Structure: First to third semester: Basic Courses in Natural Sciences, Business Administration and Engineering Fourth to fifth semester: Modules in the fields of Business and Engineering Sixth semester: Internship Seventh semester: Bachelor's thesis Admission requirements: Secondary school leaver`s certificate. If required: evidence of study dates and qualifications Evidence of knowledge of English e.g. from TOEFL test (min. 80 points internet-based) 6-week technically-orientated preliminary work placement. May be completed before or during the first two semesters Knowledge of German to A2 level (CEFR). There is an option to achieve this level by means of FHWS courses during the first two semesters Course Summary: Degree Level: Bachelor Location: Schweinfurt, Germany Course Language: English Duration: 3.5 years Tuition fees: None Application Deadline: 15 July for the following winter semester [-]