The Bachelor of Engineering Science requires three years of full-time study (or the equivalent part-time). A Bachelor of Engineering Technology has been designed for students who have Year 12 Mathematics and Physics.

The course is offered by the School of Computer Science, Engineering and Mathematics, within the Faculty of Science and Engineering.

• Admission requirements
• Course aims
• Learning outcomes
• Program of study
• Combined degrees

Admission requirements

The minimum requirements for consideration for entry to all undergraduate courses are specified in detail in the University Entry Requirements. There are no prerequisites.

Course aims

The course has been designed to provide graduates with:

• a foundation in both the theoretical and the practical aspects of engineering
• an awareness of social, economic, cultural and environmental aspects of engineering
• an ability to critically analyse and evaluate information and solve problems
• an understanding of professional and ethical responsibilities and a commitment to them
• well-developed written and oral communication skills
• structured engineering work experience
• the ability to work and interact professionally as an individual and as a member of multi-disciplinary teams
• an understanding of the need to undertake lifelong learning and the capacity to do so

The course provides the foundations that will underpin ongoing professional development, preparing graduates for further study or for a career in an engineering related field or in other areas where the range of skills and knowledge acquired is needed or desirable.

Learning outcomes

On completion of the award, students will be able to:

• competently use professional skills and knowledge in the systematic development of engineering system
• apply their skills and knowledge in a professionally responsible manner
• communicate effectively with other engineers and the wider global community using a wide range of communication technologies
• work professionally as an individual and in a team
• understand and describe the processes through which current knowledge was developed
• develop engineering solutions appropriate to the social, political, international, economic and environmental contexts in which they are applied
• engage in the process of continuing learning needed to retain the necessary level of professional skills and knowledge

Program of study

To qualify for the Bachelor of Engineering Science a student must complete 108 units with a grade of P or NGP or better in each topic, according to the program of study below.

The following Specialisations are available:

• Biomedical Engineering (B)
• Civil Engineering (C)
• Electrical and Electronic Engineering (E)
• Mechanical Engineering (M)
• Software Engineering (S)
• General Engineering (G)

The General Engineering specialization has been developed to allow students to pursue a stream of topics oriented towards other engineering disciplines. The program of study should be discussed with the Director of Studies before enrolling.

Common Topics

45 units comprising: (Please note that a maximum of 36 units of these topics should be done in first year and the remaining 9 units should be done in second year.)

Core - Year 1 topics

 MATH1701 Mathematics Fundamentals A (see note 5)  (4.5 units)*
 PHYS1701 Physics for the Modern World (see note 5)  (4.5 units)
 COMP1102  Computer Programming 1  (4.5 units)
 ENGR1401  Professional Skills  (4.5 units)
 MATH1121  Mathematics 1A  (4.5 units)*
 MATH1122  Mathematics 1B  (4.5 units)

* Please note students must successfully complete MATH1701 before undertaking MATH1121

Plus two of (see note 1):

 ENGR1201  Digital Electronics 1  (4.5 units)  B, E, G, M, S
 EASC1101 Earth and Environmental Sciences (4.5 units)  C
 PHYS1332  Physics for Engineers (4.5 units)  E, S, G
 ENGR1732  Mechanical and Electrical Fundamentals  (4.5 units)  B, C, M, G

Option - Year 1 topics

Plus sufficient of the following topics to total 45 units (see note 1):

 COMP1001  Fundamentals of Computing  (4.5 units)  S, G
 ENGR1202  Analog Electronics 1  (4.5 units)  E, S, G
 ENGR1711  Engineering Design  (4.5 units)  C, E, M, G
 ENGR1722  Engineering Materials  (4.5 units)  B, C, M, G
 MMED1005  How Your Body Works: Human Physiology and Structure  (4.5 units) B
 STAT1412   Data Analysis Laboratory (4.5 units)  S

 B: Biomedical Engineering
 C: Civil Engineering
 E: Electrical and Electronic Engineering
 M: Mechanical Engineering
 S: Software Engineering
 G: General Engineering

PLUS 45 units of upper level study in one specialisation as outlined below.
PLUS either 9 units of Engineering Project or 13.5 units of practicum
PLUS sufficient electives to bring the total to 108 units of study. Elective topics may be chosen from across the University where entry requirements are met. 

The Program of Study for the specialisations are as follows:

Specialisation - Biomedical Engineering - Year 2 & 3 topics

31.5 units comprising:

 COMP2711 Computer Programming 2 (4.5 units)
 ENGR2711  Engineering Mathematics  (4.5 units)
 ENGR2722  Signals and Systems  (4.5 units)
 ENGR2732  Biomechanics  (4.5 units)
 ENGR2742  Biomedical Instrumentation  (4.5 units)
 ENGR2772  Sensors and Actuators  (4.5 units)
 MMED2931  Human Physiology  (4.5 units)

Option - Biomedical Engineering - Year 2 & 3 topics

Select at least 13.5 units from the following:

 ENGR2721  Microprocessors  (4.5 units)
 ENGR2731  Electronic Circuits  (4.5 units)
 ENGR2741  Mechanics and Structures  (4.5 units)
 ENGR2751  Fluid Mechanics  (4.5 units)
 ENGR3711  Control Systems  (4.5 units)
 ENGR3721  Signal Processing  (4.5 units)
 ENGR3741  Physiological Measurement  (4.5 units)
 ENGR3751  Solid Mechanics  (4.5 units)

Plus

 ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
 ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

Specialisation - Civil Engineering - Year 2 & 3 topics

36 units comprising:

ENGR2711 Engineering Mathematics (4.5 units)
ENGR2741 Mechanics and Structures (4.5 units)
ENGR2751 Fluid Mechanics (4.5 units)
GEOG2700 Geographical Information Systems (4.5 units)
ENGR2821 Infrastructure Systems Engineering (4.5 units)
ENGR2832 Engineering Geology and Geomechanics (4.5 units)
ENGR2822 Civil Engineering Design (4.5 units)
ENGR2842 Structural Engineering 1 (4.5 units)

Option - Civil Engineering - Year 2 & 3 topics

Select at least 9 units from the following:

ENGR3831 Geotechnical Engineering (4.5 units)
ENGR3841 Structural Engineering 2 (4.5 units)
ENGR3871 Transport Systems Engineering (4.5 units)
ENGR3851 Water Engineering (4.5 units)

Plus

ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

Specialisation - Electrical and Electronic Engineering - Year 2 & 3 topics

36 units comprising:

 COMP2711 Computer Programming 2 (4.5 units)
 ENGR2702  Electrical Circuits and Machines  (4.5 units)
 ENGR2711 Engineering Mathematics (4.5 units)
 ENGR2712  Electronic Design and Automation  (4.5 units)
 ENGR2721  Microprocessors  (4.5 units)
 ENGR2722  Signals and Systems  (4.5 units)
 ENGR2731  Electronic Circuits  (4.5 units)
 ENGR2772  Sensors and Actuators  (4.5 units)

Option - Electrical and Electronic Engineering - Year 2 & 3 topics

Select at least 9 units from the following:

 ENGR2861 Electromagnetics  (4.5 units)
 ENGR3701  Computer Organisation and Design  (4.5 units)
 ENGR3711  Control Systems  (4.5 units)
 ENGR3721  Signal Processing  (4.5 units)
 ENGR3731  Communication Systems  (4.5 units)
 ENGR3861 Electrical Energy Systems (4.5 units)

Plus

 ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
 ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

Specialisation - Mechanical Engineering - Year 2 & 3 topics

36 units comprising:

 ENGR2703  Mechanical Practice Certificate  (0 units) (see note 3)
 ENGR2711  Engineering Mathematics  (4.5 units)
 ENGR2722  Signals and Systems  (4.5 units)
 ENGR2741  Mechanics and Structures  (4.5 units)
 ENGR2751  Fluid Mechanics  (4.5 units)
 ENGR2752  Mechanics of Machines  (4.5 units)
 ENGR2771  Dynamics  (4.5 units)
 ENGR2812 Engineering Materials 2 (4.5 units)
 ENGR2781 Mechanical Design Project (4.5 units)

Option - Mechanical Engineering - Year 2 & 3 topics

 Select at least 9 units from the following:

 ENGR3711  Control Systems  (4.5 units)
 ENGR3712  Thermodynamics and Energy Systems  (4.5 units)
 ENGR3751  Solid Mechanics  (4.5 units)
 ENGR3761 Applied Thermo-Fluid Dynamics (4.5 units)

Plus

 ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
 ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

Specialisation - Software Engineering - Year 2 & 3 topics

36 units comprising:

 COMP2711 Computer Programming 2 (4.5 units)
 COMP2731  Software Engineering 1  (4.5 units)
 COMP2761  Database and Conceptual Modelling  (4.5 units)
 COMP2781  Computer Mathematics  (4.5 units)
 ENGR2711 Engineering Mathematics (4.5 units)
 ENGR2792  Software Engineering 2  (4.5 units)
 ENGR3791  Software Engineering 3  (4.5 units)
 ENGR4791 Software Engineering 4 (4.5 units)

Option - Software Engineering - Year 2 & 3 topics

 Select at least 9 units from the following:

 COMP3751 Interactive Computer Systems (4.5 units)
 COMP3771 Advanced Database (4.5 units)
 ENGR2712  Electronic Design and Automation  (4.5 units)
 ENGR2721  Microprocessors  (4.5 units)
 ENGR2722  Signals and Systems  (4.5 units)
 ENGR2782  Computer Networks and Operating Systems (4.5 units)
 ENGR3701  Computer Organisation and Design  (4.5 units)
 COMP3712  Computer Programming 3  (4.5 units)

Plus

 ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
 ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

General Engineering

Up to 36 units of 2000-level topics that appear in any Flinders University Bachelor of Engineering degree (see note 6).

Plus

 ENGR4710A Engineering Project A (see note 2) (4.5/9 units)
 ENGR4710B Engineering Project B (see note 2) (4.5/9 units)

Plus

Sufficient higher level (3000-level topics and above) engineering topics to bring the total to 108 units of study (see note 6).

Notes

1. Students should select topics that are consistent with the specialisation they are planning to select.
2. With the permission of the Director of Studies, students may replace the Engineering Project and one Elective with ENGR3700 Engineering Practicum.
3. ENGR2703 Mechanical Practice Certificate is taught intensively outside of the normal teaching periods. Students must ensure that they are available for this topic.
4. Variations to these programs of study that are consistent with the specialisations may be agreed with the Director of Studies. Acceptable variations include, for example, those consistent with one of Flinders University's Bachelor of Engineering awards.
5. Students entering with SACE Mathematics or SACE Physics may, with the permission of the Director of Studies, substitute another topic for topics MATH1701 Mathematics Fundamentals A and PHYS1703 Physics Fundamentals.
6. Students in the General Engineering specialization may select, with the permission of the Course Coordinator, up to 27 units of study from topics offered as part of Bachelor of Engineering awards at the Australian Maritime College, Charles Darwin University, the University of South Australia or the University of Adelaide.

Combined degrees

The Bachelor of Engineering Science may also be studied in a combined degrees program with a:

• Bachelor of Business and Technology
• Master of Business and Technology