Bachelor of Engineering
Course summary for current students
Student Information Centre
Tel 1300 334 733
enquire@deakin.edu.au
Faculty of Science, Engineering and Built Environment
School of Engineering
Tel 03 9244 6699
sebe@deakin.edu.au
G = Geelong Waurn Ponds Campus
S = Geelong Waterfront Campus
W =Warrnambool Campus
X = Off campus
| Award granted | Bachelor of Engineering |
|---|---|
| Duration | 4 years full-time or part-time equivalent |
| CRICOS course code | 075868E |
| Deakin course code | S367 |
Note: offered to continuing students only. Continuing students should contact their course advisor for further information.
S367 Bachelor of Engineering will be revised as follows as of 2014:
* Please note that the courses above are not available to international on campus students, pending CRICOS registration. | |
Course sub-headings
- Course overview
- Professional recognition
- Fees and charges
- Course rules
- Major sequences
- Details of major sequences
Course overview
Deakin’s Bachelor of Engineering places great emphasis on the practical application of engineering and scientific principles to produce industry-ready engineers, who are immediately employable and capable of adapting to an ever-changing future.
You will undertake common subjects in your first year, providing you with a broad knowledge base, before choosing to specialise in civil, electrical and electronics, mechanical or mechatronics and robotics engineering.
You will learn generic skills including entrepreneurship, innovation and leadership, project management, technical report writing and presentation, and comprehension and communication, as well as develop an understanding of the ethical basis of the engineering profession and practice, contemporary technical and professional issues in the practice of engineering, and complex problems and producing innovative solutions beneficial to an organisation and society.
You will also gain a sound, fundamental understanding of the scientific principles underlying technology; learn the basic principles underlying the management of physical, human and financial resources; acquire the mathematical and computational skills necessary for solving theoretical and practical problems and for meeting future changes in technology; and gain an understanding of the social, cultural, global and environmental responsibilities of the professional engineer.
An Engineering Scholars Program is available to students who achieve an ATAR of 80 and above, all of the sequences in the Bachelor of Engineering with extra opportunities for paid industry internships or research placements and mentoring from our world-class researchers or professional engineers working in industry. The Engineering Scholars Program does not include a paid scholarship; however, students are strongly encouraged to apply for scholarships.
Units in the course may include assessment hurdle requirements.
Professional recognition
Deakin’s Bachelor of Engineering is accredited by Engineers Australia, which gives the degree international recognition, allowing graduates to practise as professional engineers in many countries around the world.
Articulation and credit transfer
Flexible entry and exit points allow students to upgrade their qualifications and to obtain credit for previous studies/experience. Applicants with appropriate TAFE qualifications or other approved post-secondary studies may apply for credit for prior learning. Credit may be considered for skills obtained in the workforce or by informal means.Attendance requirements
In order to satisfy course accreditation requirements, as specified and administered by Engineers Australia, all off-campus enrolled students are required to participate in on-campus learning activities equivalent to a minimum duration of one full academic week for every trimester of effective full time study in order to ensure that graduates possess and have demonstrated the minimum necessary knowledge and skill base, engineering application abilities, and professional skills, values and attitudes at successful completion of the course to be sufficiently prepared to enter professional engineering practice.
Off-campus enrolled students are therefore required to attend on-campus conducted activities for all units in the course (with the exception of units SEE010 and SEP490) during the corresponding Engineering Practice Week in a trimester. Engineering Practice Week is conducted in week 9 of each trimester. Attendance at on-campus activities is compulsory and failure to attend will result in a fail grade being awarded for the respective affected unit(s) for that particular trimester.
Combined courses
The Bachelor of Engineering is also available as a combined courses with commerce, information technology and science.
Equipment requirements
Off-campus students must have access to a personal computer with internet access and be able to run software in a Windows XP, vista or 7 environment.
Information about the hardware and software requirements may be obtained from the School of Engineering, telephone 03 9244 6699.
Engineering professional practice sequence
A series of professional practice units have been introduced as core requirements of the Bachelor of Engineering. These four units (one at each year level) are intended to enable students to increase their awareness of various generic engineering, technological and professional practice skills, and how those skills are applied in the workplace. There will be an emphasis on group activities and assessment and a focus on the 'real' world.Pass and honours degrees
The Bachelor of Engineering may be awarded at pass or honours level.
To be awarded the Bachelor of Engineering with honours:
- students shall normally complete a course of study satisfying the requirements of the degree of Bachelor of Engineering, including an approved major project with a written report assessed by an internal panel; and
- have been awarded a weighted average mark across level 2, 3 and 4 science and engineering units exceeding a minimum value determined by the Faculty Board.
The weighted average mark will be used to determine the grade of honours to be awarded.
Work experience
Before students will be deemed eligible to graduate they must obtain an aggregate of at least 12 weeks of suitable practical experience during their program. Work experience would normally be gained during the vacation periods. Further details are contained in the unit description for SEP490 Engineering Work Experience.
Fees and charges
Unit fees can be viewed within individual unit descriptions. You can search for a unit using the Unit Search.
Please be aware:
- Fees are calculated on a per unit basis
- Fees charged will depend on the individual units chosen
- Fees per unit/credit point may increase annually due to rises in the cost of course delivery and services
Course rules
The course comprises a total of 32 credit points, which must include the following:
- 30 core units and 2 Engineering elective units (this includes 2 highly recommended 4th year units SET401 and SET402 Advanced Topics 1 and 2)
- completion of SEE010 Safety Induction Program (0 credit-point compulsory unit)
- a maximum of 10 credit points at Level 1
- completion of SEP490 – 12 Week Engineering Work Experience (0 credit points)
- on-campus requirement for professional practice component –off-campus students MUST attend for approximately a two week period in the subjects: SEB121, SEB223, and both on and off campus students MUST attend SEB324 and SEJ446 (combined)
Major sequences
Mechatronics and Robotics
Mechanical
Details of major sequences
Streams within the Bachelor of Engineering
The first level is mainly common and students enrol into a particular stream and select a major area of study at the end of the first level.
Students complete 30 core units and 2 Engineering elective units.
Civil - unit set code MJ-S000037
Civil Engineering degree gives you the building blocks to design, construct and maintain our community. Learn to plan and build the infrastructure systems that are necessary for our day-to-day life. Civil engineers are responsible for the design, construction and project management of roads, airports and railways; water supply and sewerage systems; water resources management; and buildings and other infrastructures. This course covers the broad range of civil engineering disciplines including engineering materials, structural engineering, water engineering, geotechnical engineering and transport engineering. Graduates can expect to gain employment in a wide range of organisations such as construction companies, water authorities, local government bodies, public works departments and as consulting engineers.
Level 1
Trimester 1
| SEB121 | Engineering Practice (G, X) |
| SEP101 | Engineering Physics (G, X) |
| SIT199 | Applied Algebra and Statistics (G, X) |
| SED102 | Engineering Graphics and CAD (G, X) |
| SEE010 | Safety Induction Program (G, X) * |
*Note: SEE010 is a 0 credit point safety induction unit.
Trimester 2
| SEE103 | Electrical Systems (G, X) |
| SEM111 | Engineering Materials 1 (G, X) |
| SIT194 | Introduction to Mathematical Modelling (B, G, X) |
| SIT172 | Programming for Engineers (G, X) |
Level 2
Trimester 1
| SEM218 | Mechanics of Fluids (G, X) |
| SEM223 | Engineering Mechanics (G, X) |
| SEV217 | Engineering Geology and Surveying (G, X) |
| SEP291 | Engineering Modelling (G, X) |
Trimester 2
| SEB223 | The Professional Environment for Engineers and Scientists (G, X) |
| SEM222 | Stress Analysis (G, X) |
| SEV215 | Water Systems (G, X) |
| SEV252 | Geo Mechanics 1 (G, X) |
Level 3
Trimester 1
| SEV320 | Theory of Structures (G, X) |
| SEV322 | Hydraulics and Hydrology |
| SEV354 | Transportation Engineering (G, X) |
| SEV328 | Water and Wastewater Treatment (G, X) (offered Tri-2, 2015) |
Trimester 2
| SEB324 | Project Management (G, X) |
| SEV323 | Steel Structures (G, X) |
| SEV353 | Reinforced Concrete Structures (G, X) |
| SEV362 | Geo Mechanics 2 (G, X) (offered Tri-1, 2015) |
| SEP490 | Engineering Work Experience (G, X) |
Note: SEP490 - 0 credit points, available in trimester 1, 2 and 3
Level 4
Trimester 1
| SEJ441 | Engineering Project A (G, X) |
| SEV454 | Advanced Structural Design (G, X) |
| SEV455 | Water System Design (G, X) |
Engineering elective
Trimester 2
| SEJ446 | Engineering Project B (G, X) (2cps) |
| SEV414 | Transportation Infrastructure (G, X) |
Engineering elective
Highly recommended electives:
| SET401 | Advanced Topics in Engineering 1 (G, X) |
| SET402 | Advanced Topics in Engineering 2 (G, X) |
Mechatronics and Robotics - unit set code MJ-S000040
Mechatronics and robotics is combined in one degree at Deakin, providing a broader based course and offering wider career choices. The course combines electronics, mechanical and robotics engineering, with mechanical and robotics featuring more strongly than in other programs. It offers studies in autonomous systems, robotic system design and industrial communication design. The course is tailored to industry needs and has close links through strong research programs, cutting-edge technology and facilities, and project-based learning. Students can access state-of-the-art robotics systems and program industrial robots, and through their final-level projects, gain an introduction to the emerging haptics research area. Graduates can be employed as electronic control systems engineers or robotics engineers, and work in areas including factory control, automation, and control system design.
Level 1
Trimester 1
| SEB121 | Engineering Practice (G, X) |
| SED102 | Engineering Graphics and CAD (G, X) |
| SEP101 | Engineering Physics (G, X) |
| SIT199 | Applied Algebra and Statistics (G, X) |
| SEE010 | Safety Induction Program (G, X) |
Note: SEE010 is a 0 credit safety induction unit.
Trimester 2
| SIT172 | Programming for Engineers (G, X) |
| SIT194 | Introduction to Mathematical Modelling (B, G, X) |
| SEE103 | Electrical Systems (G, X) |
| SEM111 | Engineering Materials 1 (G, X) |
Level 2
Trimester 1
| SEP291 | Engineering Modelling (G, X) |
| SEE202 | Digital Electronics (G, X) |
| SEE206 | Measurement and Instrumentation (G, X) |
| SEM223 | Engineering Mechanics (G, X) |
Trimester 2
| SEB223 | The Professional Environment for Engineers and Scientists (G, X) |
| SEE215 | Microcontroller Principles (G, X) |
| SEM222 | Stress Analysis (G, X) |
| SEE208 | Modern Power Generation Systems Design (G, X) |
Level 3
Trimester 1
| SEE320 | Microcontroller System Design (G, X) |
| SEE321 | Electro-Mechanical Systems (G, X) |
| SEE325 | Robotics and Applications (G, X) |
| SEM327 | Dynamics of Machines (G, X) |
Trimester 2
| SEE326 | Artificial Intelligence for Autonomous Systems (G, X) |
| SEB324 | Project Management (G, X) |
| SEE344 | Control Engineering (G, X) |
| SEE312 | Electronic Data Communications (G, X) |
Level 4
Trimester 1
| SEE426 | Robotic System Design (G, X) |
| SEJ441 | Engineering Project A (G, X) |
| SEM433 | Mechatronic Design (G, X) |
Engineering elective
Trimester 2
| SEJ446 | Engineering Project B (G, X) (2cps) |
| SEE412 | Industrial Data Communication and Design (G, X) |
| SEP490 | Engineering Work Experience (G, X) |
Engineering elective
Note: SEP490 - 0 credit points, available in trimester 1, 2 and 3
Highly recommended electives:
| SET401 | Advanced Topics in Engineering 1 (G, X) |
| SET402 | Advanced Topics in Engineering 2 (G, X) |
Mechanical - unit set code MJ-S000039
Product development and innovation are key drivers for Australian industry. To meet this need, Deakin's mechanical engineering degree brings together leading computer-aided engineering technologies and advanced materials to provide one of the most relevant mechanical engineering degrees in Australia. The automotive industry, in particular, has been involved in the design of the degree, and graduates can look forward to a high level of employment in this industry and supplier companies, as well as other leading manufacturing and design companies. The degree draws heavily on Deakin's world-class research teams in automotive engineering and advanced materials, with a practical problem solving approach that includes an opportunity to work on the Formula Society of Automotive Engineering (FSAE) race car, designed and built by our degree students. Along the way, students will develop project management, communication and financial management skills, as well as a solid understanding of product and process modelling and designing for sustainability.
Level 1
Trimester 1
| SEB121 | Engineering Practice (G, X) |
| SED102 | Engineering Graphics and CAD (G, X) |
| SEP101 | Engineering Physics (G, X) |
| SIT199 | Applied Algebra and Statistics (G, X) |
| SEE010 | Safety Induction Program (G, X) |
Note: SEE010 is a 0 credit safety induction unit.
Trimester 2
| SEE103 | Electrical Systems (G, X) |
| SEM111 | Engineering Materials 1 (G, X) |
| SIT172 | Programming for Engineers (G, X) |
| SIT194 | Introduction to Mathematical Modelling (B, G, X) |
Level 2
Trimester 1
| SEM218 | Mechanics of Fluids (G, X) |
| SEM212 | Materials 2 (G, X) |
| SEM223 | Engineering Mechanics (G, X) |
| SEP291 | Engineering Modelling (G, X) |
Trimester 2
| SEB223 | The Professional Environment for Engineers and Scientists (G, X) |
| SED202 | Mechanical Design and CAM (G, X) |
| SEM314 | Principles of Thermodynamics (G, X) |
| SEM222 | Stress Analysis (G, X) |
Level 3
Trimester 1
| SEE321 | Electro-Mechanical Systems (G, X) |
| SED302 | Computer Aided Engineering (G, X) |
| SEM327 | Dynamics of Machines (G, X) |
| SEM329 | Materials Selection and Performance (G, X) |
Trimester 2
| SEB324 | Project Management (G, X) |
| SEE344 | Control Engineering (G, X) |
| SEM313 | Manufacturing Technology (G, X) |
| SEM422 | Advanced Stress Analysis (G, X) |
Level 4
Trimester 1
| SEJ441 | Engineering Project A (G, X) |
| SEM405 | Heat Transfer (G, X) |
| SEM406 | Modelling and Simulation (G, X) |
Engineering elective
Trimester 2
| SED402 | Advanced Design Methodologies (G, X) |
| SEJ446 | Engineering Project B (G, X) (2cps) |
| SEP490 | Engineering Work Experience (G, X) |
Engineering elective
Note: SEP490 - 0 credit points, available in trimester 1, 2 and 3
Highly recommended electives:
| SET401 | Advanced Topics in Engineering 1 (G, X) |
| SET402 | Advanced Topics in Engineering 2 (G, X) |
Electrical and Electronics - unit set code MJ-S000053
Electrical and electronic engineers are responsible for the design, construction, protection, and project management of power generation, distribution, transmission, scheduling and usage, automation and control.
This program covers the broad areas of electrical and electronic engineering disciplines including renewable electrical power generation, smart distribution, urban, industrial, rural and regional power usage, the role of energy production and efficiency in climate change This course has been designed to attract students who can be trained to fulfil the shortage of electrical and electronic engineers. It also is designed to encourage responsible use of electrical power in a changing climate. Students learn and practice on industry standard tools in world class facilities. The program also has strong links with the electrical and renewable energy engineering industry providing students a true professional engineering practice.
Level 1
Trimester 1
| SEB121 | Engineering Practice (G, X) |
| SEP101 | Engineering Physics (G, X) |
| SIT199 | Applied Algebra and Statistics (G, X) |
| SED102 | Engineering Graphics and CAD (G, X) |
| SEE010 | Safety Induction Program (G, X) * |
*Note: SEE010 is a 0 credit point induction unit.
Trimester 2
| SEE103 | Electrical Systems (G, X) |
| SEM111 | Engineering Materials 1 (G, X) |
| SIT194 | Introduction to Mathematical Modelling (B, G, X) |
| SIT172 | Programming for Engineers (G, X) |
Level 2
Trimester 1
| SEP291 | Engineering Modelling (G, X) |
| SEE207 | Power Engineering Design (G, X) |
| SEE202 | Digital Electronics (G, X) |
| SEE206 | Measurement and Instrumentation (G, X) |
Trimester 2
| SEB223 | The Professional Environment for Engineers and Scientists (G, X) |
| SEE215 | Microcontroller Principles (G, X) |
| SEE205 | Analogue Electronics (G, X) |
| SEE208 | Modern Power Generation Systems Design (G, X) |
Level 3
Trimester 1
| SEE307 | Electronic Systems and Signals (G, X) |
| SEE321 | Electro-Mechanical Systems (G, X) |
| SEE320 | Microcontroller System Design (G, X) |
| SEE309 | Power Systems Protection and Relaying (G, X) |
Trimester 2
| SEB324 | Project Management (G, X) |
| SEE308 | Electrical Machines (G, X) |
| SEE344 | Control Engineering (G, X) |
| SEE312 | Electronic Data Communications (G, X) |
Level 4
Trimester 1
| SEJ441 | Engineering Project A (G, X) |
| SEE405 | Smart Generation and Transmission ^^ |
| SEE406 | Electrical Systems and Safety ^^ |
Engineering elective
Trimester 2
| SEJ446 | Engineering Project B (G, X) (2cps) |
| SEE412 | Industrial Data Communication and Design (G, X) |
| SEP490 | Engineering Work Experience (G, X) |
Engineering elective
Note: SEP490 - 0 credit points, available in trimester 1, 2 and 3
Highly recommended elective:
| SET401 | Advanced Topics in Engineering 1 (G, X) |
| SET402 | Advanced Topics in Engineering 2 (G, X) |
^^ Not offered until 2015
