Bachelor Programs in Engineering

Compare 198 Bachelor Programs in Engineering

Engineering

Engineering is the discipline that applies mathematics, science, and economics to the design and building of innovative machines, materials, and processes created to improve the lives of people. There are several types of engineering, including mechanical, aerospace, electrical, chemical, civil and nuclear, to name a few. 

A Bachelor of Engineering degree prepares students for professional careers in engineering, which is currently at high demand. Students earning a Bachelor of Engineering degree focus on coursework that is specialized to the sector that the student is interested in, such as science of materials, biotechnology, biochemical engineering, physics, numerical methods in computation, chemistry, thermodynamics, and sustainable design, among the many options. A Bachelor of Engineering can serve as a solid starting point for a successful career in engineering.

If you are mathematically and scientifically inclined, then a Bachelor of Engineering may be the education you are looking for. Take a look through the options below and find the Bachelor of Engineering program for you!

Read More

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. 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 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. [-]

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. 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 of Engineering

Lane Community College
Campus Full time Part time 4 years September 2017 USA Eugene + 1 more

Engineers use their imagination and analytical skills to invent, design, and build things that matter. They are team players with independent minds who ask, "How can we develop a better recycling system to protect the environment, design a school that can withstand an earthquake, or create cutting-edge special effects for the movies?" By dreaming up creative and practical solutions, engineers are changing the world all the time. [+]

What is Engineering? Engineers use their imagination and analytical skills to invent, design, and build things that matter. They are team players with independent minds who ask, "How can we develop a better recycling system to protect the environment, design a school that can withstand an earthquake, or create cutting-edge special effects for the movies?" By dreaming up creative and practical solutions, engineers are changing the world all the time. Some of the Fields of Engineering Civil, Mechanical, Electrical, Industrial, Manufacturing, Computer, Chemical, Aerospace, Environmental, Transportation, Biomedical, Materials, Nuclear, Petroleum, Forest, Ocean, Water Resources, and Bioengineering. Career Prospects Most branches of engineering offer a wide variety of well-paying, interesting employment opportunities throughout the world. Some jobs emphasize outdoor field work, such as construction site activity or ocean floor or aerospace exploration and research. Other jobs might focus on design of ordinary objects for daily use or on medical technology. Many positions utilize computers for analysis and problem solving. Often, engineers move into responsible management positions or consulting work after several years. For specific salary information, contact Lane's Career and Employment Services office, or search the internet using "engineering salaries." Why Study Engineering? Do you want to invent things? Solve problems? Improve the world? Successful completion of an engineering major guarantees you a solid background in mathematics and the physical sciences, as well as exposure to the social sciences and liberal arts. The Lane experience of pursuing an engineering degree is exciting and interesting, and provides tremendous flexibility in choosing a career direction. Sometimes an engineer or engineering student becomes interested in another area of work or study, such as medicine, law, education, or business management. The analytical and problem-solving skills developed while pursuing an engineering degree transfer well to these and other disciplines. Why start your engineering education at Lane? History Since 1980, students from Lane have transferred to universities throughout the United States to complete their engineering education. Many have gone on to earn advanced degrees in graduate school. Former students have achieved academic and professional success and are now working as professionals throughout Oregon and the nation. What Former Lane Students Say About the Program "The education I received at Lane provided excellent preparation for upper division engineering courses. I would do it again and encourage other potential engineers to follow a similar path." —Nathan Mead, Ph.D. Mechanical Engineering, University of Utah; M.S., B.S. Mechanical Engineering, Oregon State University; and now Professor at the Oregon Institute of Technology "The quality of Lane's courses is the same as what I experienced in my graduate level classes at Berkeley." —Brad Larsen, M.S. Civil Engineering, University of California, Berkeley; B.S. Civil Engineering, Oregon State University Advantages of Lane's Engineering Program Students in our program usually transfer directly into junior year (upper division) professional programs at a university of their choice. Lane offers quality, university-level instruction at tuition rates lower than those of university programs. Lane has small classes (usually fewer than 30 students). The student population in the program is diverse in age, experience, and cultural background. This provides a rich learning environment. The program has faculty with professional engineering backgrounds and years of college teaching experience. All faculty have graduate degrees and are available, helpful instructors. New facilities: a new mathematics and science building provides state-of-the-art classrooms and laboratories. We have close working relationships with engineering professional programs at universities in Oregon. The mission of the engineering transfer program is to prepare students for their transition to a four year university. Lane has a proven record of success. [-]

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 of Engineering (Hons) Mechanical

Universiti Selangor (UNISEL)
Campus Full time 4 years August 2017 Malaysia Selangor

Mechanical Engineering discipline was firstly developed from the application of physics and materials science principles. The generation and application [+]

Professional Recognition - Engineering Accreditation Council (EAC) - Malaysian Qualification Agency (MQA) Intake: January / June / August Duration: 4 years Fees: - Entry Requirements: - Foundation in Science from UNISEL / Marticulation Certificate in Physical Science from Ministry of Education / Private Institution with at least CGPA 2.00; or - Diploma in Engineering / Science / Technology or equivalent from UNISEL or Public / Private Institution with at least CGPA 2.00; or - STPM or equivalent with at least 3 principals inclusive of Mathematics and Science. - Other qualification that organized by Malaysian Government and - Preferred candidates with Malaysia University English Test (MUET) certificate, if not students are compulsory to sit for MUET test while studying at UNISEL; or - STAM- candidates passed with grade JAYYID and passed in BahasaMelayu / Bahasa Malaysia (SPM level) or - Australian Senior Secondary Qualification Passed in south Australian Certificate Education (SACE) with minimum 50 marks in 5 subjects West Australian certificate of Education (WACE) with minimum gred C; New South Wales Higher School Certificate (NSWHSC) with minimum 60 marks (BAND 3); or Other qualifications recognized by Australian States itself - Canadian International Programme (CIMP) / International Canadian Pre University Programme (ICPU) - Ontario Secondary School Diploma (OSSD) with minimum 60% marks in 6 subjects; or - Others qualification Gred 12 that recognized by countries / states itself Overview Mechanical Engineering discipline was firstly developed from the application of physics and materials science principles. The generation and application of Heat Transfer, Mechanical Design, Manufacturing and Production, Machine Tools, and Applied Mechanics are the branches of the field. The field requires various cores of mechanical engineering areas which are mechanics, kinematics, thermodynamics, fluid mechanics, heat transfer, materials science, machine design and energy. Mechanical engineers apply the core principles of the knowledge in designing and analysing manufacturing systems, industrial equipment’s and machineries, heating and cooling systems, motor vehicles, aircraft, watercraft, robotics, medical devices and many more. The Mechanical Engineering curriculum is designed to provide graduates with a theoretical foundation as well as design experience in the area of thermo-fluid, mechanical design, manufacturing, materials and applied mechanics. The fundamental aspect of these core foundations are achieved in the First and Second Year of study and enable students to utilize them in the design courses and develop their design knowledge and skills. The students are also required to undergo Industrial Training in the Third Year of their studies during the short semester. The industrial placement accords students with competitive experiences before entering the job market. This training also provides exposure on business environment, teamwork and other positive attitudes as well as other transferable knowledge and skills. The industrial exposure also opens up their minds of the industrial environment to bring back into the classrooms with numerous potentials in their career choice. In Fourth Year, students are allowed to select 4 elective courses in areas where their particular interests have developed. The areas are Thermo-fluids, Materials and Design and Manufacturing System. Students are also required to undertake Final Year Project within two semesters during the Fourth Year. [-]

Bachelor's in Engineering

Eastern Mennonite University
Campus Full time September 2017 USA Harrisonburg Lancaster

Our expert faculty take the practical study of engineering and provide a top-rate technical education within a Christian liberal arts context. [+]

Bachelors in Engineering. Engineering Studies: Computer and Mechanical Our expert faculty take the practical study of engineering and provide a top-rate technical education within a Christian liberal arts context. In this program, rigorous academics and advanced problem-solving converge with values such as sustainability and cross-cultural awareness. EMU STEM graduates often feel more prepared for graduate school or jobs than their counterparts from larger institutions. Engineering Facilities EMU is completing a $4 million renovation of the Suter Science Center, which will house a rapid prototyping lab with 3-D printers, computer design lab; engineering support lab, and spaces for faculty/student collaboration to support engineering and other STEM programs. Engineering Curriculum Alternate year courses denoted with * Courses required for the given emphasis denoted with # Engineering Core (31 SH) Introduction to Engineering and Design (4) Introduction to Programming or Intermediate Programming (3) Experimental Methods* (3) Analog Circuits* (3) Engineering Statics (3) Engineering Design II (3) Engineering Design III (3) Senior Design/Capstone Project (2/2) Ethics in Computing and Engineering* (3) Math/Science Core (33 or 36 SH) Precalculus for Science and Engineering (0 or 3) Math for Engineering Lab (1) Calculus I/II/* and III (12) Statistics for the Natural Sciences* (3) Differential Equations (3) Linear Algebra* (3) University Physics I/II (8) General Chemistry (4) Upper Level Electives: Six courses from the courses listed in the two emphases below. At least three of the courses must be 300 level. Mechanical Engineering Emphasis Engineering Dynamics*(3) Linear Systems*(3) Strength of Materials*(4) Thermodynamics*(3) Digital Circuits(3) Math Modeling(3) Fluid Mechanics(3) Heat Transfer(3) Control Systems(3) Topics in Engineering(3) Computer Engineering Emphasis Discrete Math# (4) Software Engineering* (3) Computer Architecture and Operating Systems# (3) Networks and Data Communications# (3) Digital Circuits#* (3) Math Modeling* (3) Linear Systems* (3) Control Systems* (3) Data Structures* (3) Topics in Engineering* (3) Professors Engineering students work closely with expert professors Esther Tian and Daniel King, both engineering specialists, and other mathematics and computer science faculty members. Tian holds all three of her degrees, including a doctorate from University of Virginia, in mechanical engineering, while King double-majored in music and physics at Goshen (Indiana) College and went on to earn master’s and doctoral degrees at the University of Illinios in theoretical and applied mechanics. [-]

Bachelor of Engineering (Honours)

Western Sydney University
Campus Full time Part time 4 - 8 years January 2017 Australia Sydney + 1 more

The Bachelor of Engineering (Honours) is a four year degree program with common first year structure. The program has been designed to meet Engineers Australia professional accreditation requirements – Competency Stage 1 Professional Engineers and Australian Quality Frameworks (AQF) Level 8. [+]

The Bachelor of Engineering (Honours) is a four year degree program with common first year structure. The program has been designed to meet Engineers Australia professional accreditation requirements – Competency Stage 1 Professional Engineers and Australian Quality Frameworks (AQF) Level 8. It allows students the opportunity to choose a discipline area by selecting a key program in Civil, Construction, Electrical, Mechanical, and Robotic and Mechatronic engineering. In addition, students can specialise by selecting a sub-major from a wide range of recommended alternate unit sets that will complement their chosen discipline. The future presents significant challenges for managing the environment, infrastructure and technological developments. Effective solutions to these challenges will require innovative engineering, applied science and design strategies. At Western Sydney University, we prepare our students to take on those challenges and succeed. The Bachelor of Engineering (Honours) degree covers all major engineering domains, and you can experience many facets of engineering before deciding your area of specialisation at the end of your first year. In 2017 Engineering (Honours) majors - Civil, Electrical, and Mechanical - will be offered at our new Sydney City campus in the heart of the CBD. Full-time Autumn intake All students undertaking the Bachelor of Engineering (Honours) are required to enrol in 300743 Mathematics for Engineers Preliminary and undertake a readiness test at the beginning of their study. The readiness test will be conducted at the beginning of the first semester of enrolment and the result will be used to determine whether a student will remain in 300743 Mathematics for Engineers Preliminary or be transferred by the School to 200237 Mathematics for Engineers 1. Students remaining in 300743 Mathematics for Engineers Preliminary will be required to complete 200237 Mathematics for Engineers 1 during second semester and will be encouraged to complete 200238 Mathematics for Engineers 2 during the Summer session. Admission Recommended studies: Physics and HSC Mathematics Extension 1 or HSC Mathematics Extension 2. Assumed knowledge required: Two units of Science, two units of English and Mathematics (not General Mathematics) at Band 5 or higher. Applications from Australian and New Zealand citizens and holders of permanent resident visas must be made via the Universities Admissions Centre (UAC). Applicants who have undertaken studies overseas may have to provide proof of proficiency in English. Local and International applicants who are applying through the Universities Admissions Centre (UAC) will find details of minimum English proficiency requirements and acceptable proof on the UAC website. Local applicants applying directly to the University should also use the information provided on the UAC website. http://www.uac.edu.au/ International applicants must apply directly to Western Sydney University via the International Office. International students applying to The University through the International Office can find details of minimum English proficiency requirements and acceptable proof on their website. [-]

Bachelor of Engineering

University of Southern Indiana
Campus Full time January 2017 USA Evansville

The degree programs offered through the Department of Engineering include a foundation in mathematics, physics, chemistry, and communications upon which the technical education is built. To complement the student's area of technical specialization, the curricula contain technical writing, public speaking, social science, and humanities. [+]

Bachelors in Engineering. A flexible, well-rounded program of study. The degree programs offered through the Department of Engineering include a foundation in mathematics, physics, chemistry, and communications upon which the technical education is built. To complement the student's area of technical specialization, the curricula contain technical writing, public speaking, social science, and humanities. The Bachelor of Science in Engineering program is accredited by the Engineering Accreditation Commission of ABET, www.abet.org. The Industrial Supervision program includes business and management courses to prepare graduates for supervisory positions. The Advanced Manufacturing Program is a technology-based degree that prepares students for positions in high tech manufacturing. Co-op Experience A cooperative education program is available for interested students. The co-op experience is designed to assist the student in developing an understanding of human relationships and in learning to work with others as a member of an engineering team. Individual growth is enhanced by the realization that, in addition to demonstrating theoretical knowledge, one is also learning to become an integral part of the working community and developing an awareness of the interrelationship between the academic and professional worlds. On the job and at the University, the co-op student obtains first-hand knowledge of professional practices, expectancies, and opportunities. At the same time, the student is offered a realistic test of career interest and aptitude. Participation in this program enables the student to make a more intelligent selection of a position after graduation. Majors Advanced Manufacturing Engineering with the following emphasis areas Civil Electrical and Computer Industrial and Manufacturing Mechanical Mechatronics Industrial Supervision Programme description [-]

Bachelor in Civil Engineering

University of Nevada, Reno
Campus Full time September 2017 USA Reno

Civil engineers use their knowledge of science and engineering to design and maintain much of our world's infrastructure. They also apply their expertise to improve our quality of life, whether it's by designing safer buildings, reducing our carbon footprint or just shortening your commute. Their work helps solve many of our planet's most serious problems, including decaying roadways, clogged highways, polluted water and hazardous wastes. [+]

Civil engineers use their knowledge of science and engineering to design and maintain much of our world's infrastructure. They also apply their expertise to improve our quality of life, whether it's by designing safer buildings, reducing our carbon footprint or just shortening your commute. Their work helps solve many of our planet's most serious problems, including decaying roadways, clogged highways, polluted water and hazardous wastes. Civil engineers generally specialize in a particular area. Our department offers five areas of specialization for students: Earthquake and structural engineering involves the analysis and design of structures that support or resist loads, such as bridges or buildings. Environmental engineering uses science and engineering principles to improve the environment, with a special focus on air, water and land resources. Geotechnical engineering is the branch of civil engineering concerned with the engineering behavior of earth materials such as soils, foundations and earth structures like tunnels, dams or levees. Pavements/materials engineering focuses on pavement design and materials as well as vehicle pavement interaction. Transportation engineering involves all aspects of planning, functional design, operation and facilities management for any mode of transportation. Two cooperative training programs are available for civil engineering students. Both programs offer financial assistance through summer employment with the participating organizations. Related Degrees and Programs Civil Engineering, Minor Environmental Engineering, Minor Civil Engineering, Bachelor of Science Degree Environmental Engineering, Bachelor of Science Degree Civil and Environmental Engineering, Master of Science Degree Civil and Environmental Engineering, Doctor of Philosophy Degree Successful engineering students arrive at the University with a strong background in math and science. We recommend students have taken physics and chemistry courses in high school and are prepared to take calculus as freshmen. Our program teaches students to make engineering and design decisions while considering a broad range of factors such as sustainability, aesthetic values, and environmental, economic, legal and technical limitations. Graduates of the bachelor's degree program in civil engineering are trained to: Apply their engineering knowledge and problem-solving skills in a professional environment Analyze and design civil infrastructure systems Work as members or leaders of multidisciplinary teams Continue their education through graduate studies or ongoing professional development hours Understand and communicate technical, social, environmental and ethical issues to society at large Be aware of contemporary issues and engage in life-long learning Degree requirements In addition to University core curriculum requirements, the bachelor's degree program in civil engineering requires coursework in four areas: Math and physical sciences Engineering sciences Engineering design Technical electives Your technical electives will depend on your area of emphasis. All students must complete at least two elective courses that cover design, one of which must be either CEE 480, Structural Concrete Design, and/or CEE 481, Structural Steel Design. Students are also required to take two capstone classes in the senior year. Capstone classes are a chance for you to synthesize the knowledge you've gained during your degree program and apply it to the engineering design process. Students must also take the Fundamentals of Engineering Examination administered by the Nevada Board of Professional Engineers. This exam is generally taken during the spring of your senior year. Register for ENGR 490 in order to have the exam recorded on your transcript. Career options A civil engineering degree can lead to a wide range of career paths. Civil engineers may find employment in supervisory and administrative positions, ranging from supervisor of a construction site to city engineer to an executive role. Civil engineers work in teams with other engineers and scientists in a range of settings, such as the following: Private industry Engineering consulting firms Federal, state, county and city governments Public utilities and educational institutions Many of our department's past graduates work with or have their own consulting firms and often hire graduates from the department. U.S. News and World Report ranked civil engineering on its list of the top 10 best technology jobs, and the profession was number 26 on the overall list of best jobs. According to the report, civil engineers enjoy above average upward mobility and a promising job outlook. Civil engineering majors had a median salary of $78,000, according to a 2011 study from Georgetown University's Center on Education and the Workforce. [-]

BSc In Civil Protection (Emergency Management) Engineering

Castelo Branco University of Applied Sciences
Campus 3 years September 2017 Portugal Castelo Branco

The creation of the Civil Protection Municipal Offices led to an important need for technical and trained specialists with an interdisciplinary and integrative view on the problems and challenges in these issues. Bridging the objective unavailability of the market to provide, immediately, technicians with the proper training to these demands, and the education system has thus overcome this situation. Enhance more professional, more demanding in terms of capacity and skills of civil protection operators and especially increased ability to work in own networking system of the new organizational scheme. Acting in networks of international cooperation, where once again justified the need for individuals trained to deal with this reality. [+]

Bachelors in Engineering. Goals - The creation of Municipal Offices for Civil Protection led to an important need for technical and trained specialists with an interdisciplinary and integrative view on the problems and challenges these ideas - Bridging the objective unavailability of the market to provide, immediately, technical with the proper training to these demands, and the education system has thus overcome this situation - Enhancing more professional, more demanding in terms of capacity and skills of civil protection operators and especially increased ability to work in own networking system the new organizational scheme - to work in networks of international cooperation, where once again justified the need for trained individuals to deal with that reality Career - Local authorities and civil protection offices, at local, regional and national level - organizations, institutes and public and private bodies with expertise or intervention in the areas of civil protection - protection offices and security of public and private companies - Security companies, project and development, production and marketing of safety equipment - civil protection technicians in international agencies - public bodies of criminal investigation - Activities to provide consulting and advisory services - Training Services - R & D activities, particularly in the applied part - Activity in the field of planning and land use planning in risk prevention aspects and emergency plans [-]

Bachelor of Engineering Technology

Otago Polytechnic
Campus Full time Part time 3 years February 2017 New Zealand Dunedin + 1 more

Are you a hands-on kind of person who enjoys planning and problem-solving? Use those strengths to help shape your future within the Engineering industry. [+]

Are you a hands-on kind of person who enjoys planning and problem-solving? Use those strengths to help shape your future within the Engineering industry. Engineers are in high demand around the world for their skills and experience in combining engineering theory with the applied and practical components required in a range of industries. With hard work and a responsible attitude, you could set your sights on project management or consultancy roles in your particular fields. Gain skills in management, economics, communications, problem-solving and critical thinking, while developing a deep understanding of the principles and practical application of modern technology in your area of specialisation. During the third year, you will have the opportunity to participate in a significant industry-based project in order to gain experience within the workplace. And our Master of Design Enterprise is then the ideal next step if you have a passion for design-empowered enterprise! This programme is a collaboration by New Zealand Metro Polytechnics and has provisional accreditation towards the Sydney Accord of the International Engineering Alliance from the Institution of Professional Engineers, which ensures it meets national and international standards. *Please note: Accreditation pending for year two and three of the electrical major. Please contact the School of Architecture, Building and Engineering for more information. International fee: NZD 21, 420 (first year) Engineering career opportunities. Research and development Technical support and application Education and communication Sales Quality and general management Technocratic roles in local authorities and government. Skills required Good problem-solving ability Practical thinking Good computer skills The ability to plan, organise and adapt Excellent communication skills. Entry requirements NCEA Level 3 including: Three subjects - at  Level 3 including: minimum of 14 credits in physics minimum of 14 credits in calculus one other subject from the list of NZQA approved subjects, and Literacy - 10 credits at  Level 2 or above, made up of: 5 credits in reading and 5 credits in writing, and Numeracy - 10 credits at  Level 1 or above, made up of: specified achievement standards available through a range of subjects OR unit standards - package of three numeracy unit standards (26623, 26626, 26627-  all  three required) OR equivalent qualifications. If you are a school leaver or adult applicant  with equivalent experience who does not meet all of the entry criteria, you may be given provisional entry at the discretion of the Head of School where it is considered that you have a reasonable chance of succeeding in this qualification. As part of our selection process, you may be required to undertake a face-to-face or telephone interview. As part of our selection process, international students need to show that they have achieved their country's equivalent of the academic entry criteria above. If English is not your first language, you must also demonstrate English language skills equivalent to an IELTS overall band score (academic) of 6.0, with no less than 6.0 in writing and speaking, and no less than 5.5 in reading and listening. Selection Procedure Eligible applicants will be selected using the entry criteria. If the number of applications exceeds the number of places, applicants will be placed on to a waiting list in the order that they applied.  Further study options Developed in collaboration with industry, our Master of Design Enterprise qualification is the ideal next step if you have a passion for design-led enterprise! You will study This programme is made up of core and elective courses. Each will focus on the design and implementation of engineering technology and will concentrate on the development of advanced critical thinking and problem solving activities for effective troubleshooting. YEAR ONE Develop skills in communication, management, mathematics, engineering science, basic electrical/electronic principles and basic engineering practices. Elective courses may be selected according to your area of specialty. YEAR TWO Continue to build on your selected major. YEAR THREE Undertake an industry-based project in order to gain experience within the engineering profession. Upon successful completion of this qualification, enter industry practice and then develop, demonstrate and maintain practical skills and professional competence. Your graduate career has the potential to develop as follows: Development stage Enter initial employment and develop competence for independent practice under supervision. Independent practice Practice independently as a competent engineering technologist benchmarked against the competence standard for registration as an Engineering Technology Practitioner (ETPract). You are now able to progress to Technical Membership of IPENZ (TIPENZ). Team leadership Take overall responsibility for the work of a team in which you are the most expert. Technical management Supervise the work of others who may have greater or wider competence. General management Become involved in management at an organisational level. You may no longer be directly involved with technical engineering technology activities. Further Engineering career opportunities: Research and development Technical support and application Education and communication Sales Quality and general management Technocratic roles in local authorities and government. [-]

Bachelor in: Business Administration, Engineering, Biology (2+2 Programs)

Sinclair Community College
Campus Full time 2 - 4 years January 2017 USA Dayton

Sinclair Community College provides international students with an affordable way to earn a Bachelor’s Degree. With 25 university parallel programs, or 2 + 2 programs, students study at Sinclair for two years to earn approximately 60 credit hours, and then go on to a university for an additional two years to complete a Bachelor’s degree. [+]

Bachelors in Engineering. Earn a Bachelor’s Degree and Save Money by Starting at Sinclair Community College Sinclair Community College provides international students with an affordable way to earn a Bachelor’s Degree. With 25 university parallel programs, or 2 + 2 programs, students study at Sinclair for two years to earn approximately 60 credit hours, and then go on to a university for an additional two years to complete a Bachelor’s degree. Students complete a Bachelor’s degree in the same amount of time it would have taken them had they gone directly to the university, but can save tens of thousands of dollars due to Sinclair’s affordable tuition. Some of the most popular university parallel programs at Sinclair for international students are: Business Administration, Engineering, Biology, Mathematics, Music, Political Science, Psychology and Theatre Technology. After completing two years at Sinclair, student can directly transfer to any of these universities, with which Sinclair Community College has transfer agreements: - University of Dayton - Wright State University - Miami University - University of Cincinnati - Ohio University In addition, our international students have successfully transferred to: - Purdue University - Georgia Institute of Technology - University of North Carolina - Brigham Young University - SUNY – Stony Brook - Kansas State University [-]

Bachelor In Production Engineering

Grupo Tiradentes
Campus Full time 5 years March 2017 Brazil Aracaju

Efficiency is the watchword. Idealize and optimize production systems, leading people and managing resources, processes, finance, materials, equipment and information to increase business productivity are work for the production engineer. [+]

Efficiency is the watchword. Idealize and optimize production systems, leading people and managing resources, processes, finance, materials, equipment and information to increase business productivity are work for the production engineer. 05 years duration Day and Night JOB MARKET Opportunities for production engineer are endless, because their knowledge is applied to the various sectors of industry, commerce and services. The modernity of the Brazilian economy and its global context, the arrival of large international enterprises and constant technological renewal are factors that heat the market and confirm the need for technical and strategic look production engineer. The multidisciplinary training and building a holistic view ensures a wide field of activity to this professional, agribusiness Steel. While studying at St. Louis, since the first half it is possible to accumulate experience through paid internships with grants between R $ 400 and R $ 724, mediated by the institution and member companies through the stage center. After completing the graduate starting salaries surpass R $ 2,000. Throughout the career average salary exceeds R $ 11,000. Studying in St. Louis is to be ahead of your time and aim for a future of many achievements. SALARY MONTHLY AVERAGE RANGE Initial R $ 2000.00 Full R $ 11,000.00 OCCUPATION AREA Understanding systems and machines, evaluate labor relations and human resources, increase sales and productivity, ensuring quality and efficiency, it is the production engineer everyday. Vocational training in FSLF enables the performance in several areas, from organizational development, analyzing and defining the structure of a company to the business economy, managing the financial life. Coordinate the process automation, planning and control of production; develop quality control systems, to anticipate problems and propose solutions, using tools and IT are some of the possibilities of action. You can also follow an academic career. Have you thought about being a researcher or teacher? The area is vast and the choice is yours! [-]

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. 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 [-]