Bachelor of Engineering (Honours) (Mechatronics) (EN01)
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Planning your enrolment
This information will assist to plan your studies and complete your enrolment in HiQ. Read the information under the Course Structure tab for a recommended study program and unit details.
This is a major of the course Bachelor of Engineering (Honours) (EN01)
If you need further enrolment advice use the contact details listed. For more information about enrolling visit the enrolment section.
Major Details
| Course duration (full-time): | 4 years |
|---|---|
| Course duration (part-time): | Domestic: 8 years |
| Total credit points: | 384 |
| Standard credit points/full-time semester: | 48 |
| Course coordinator: | askqut@qut.edu.au |
| Discipline coordinator: | AskQUT |
| Course contact: | +61 7 3138 2000, askqut@qut.edu.au |
| Delivery: | Gardens Point |
| CRICOS code: | 084921G |
| Faculty: | Faculty of Engineering |
Scholarships
Overview
Mechatronics engineering is the design and maintenance of machinery with electronic and computer control systems, such as aircraft and power generators, to work in the high-tech fields of automated systems and robotics. It describes a new concept in the world of making value-added products, a skill that is becoming essential across all industrial sectors: manufacturing and process industries, primary production and mining, and the service and health industries. Mechatronics engineering is the hybrid discipline of mechanical engineering, electrical and electronic engineering, and computing. This cutting-edge degree is unique in Australia, and provides you with the combined skills of all these disciplines to enter the growing industry of mechatronics. You will benefit from QUT's close links with local and international industry and, during your study, may be involved in different projects such as QUT Motorsport and the aerospace avionics Uninhabited Aerial Vehicle Outback Challenge.
Work integrated learning
Work Integrated Learning (WIL) is embedded in the curriculum, and is a core component for all engineering students.
WIL allows you to graduate with a portfolio of professional skills that provides evidence of your professional competencies. As part of the course requirements, you need to undertake 60 days of approved work experience in an mechatronics engineering environment under the supervision of a Professional Engineer. Please start planning your WIL in your second year of studies. After achieving 192 credit points in your single degree, you are eligible for an engineering related placement. For questions or assistance, please contact the Faculty of Engineering WIL team at engineering.wil@qut.edu.au.
Professional recognition
This course has professional accreditation from Engineers Australia (EA). EA is a signatory to the Washington Accord, which permits graduates to work in various countries across the world. This course is recognised internationally in the engineering profession, giving QUT graduates more career opportunities overseas. Full professional accreditation from Engineers Australia has been given for this course.
Study areas
In this degree, students have the opportunity to pursue complementary studies by undertaking an aligned engineering minor. After completing their first year, students can choose their engineering minor from the available options within their chosen major.
Pathways to further study
The (EN01) Bachelor of Engineering (Honours) is located at Level 8 of the Australian Qualifications Framework (AQF). Graduates may be eligible for discipline-relevant masters - and/or doctoral-level programs.
QUT You
QUT You provides interdisciplinary experiences that enhance critical and creative thinking, self-awareness, and digital skills, preparing students to create positive societal change.
You are required to complete QUT You units in your course – find out more about QUT You.
Course information
Course updates and changes to units and study areas may affect enrolment requirements. If your study plan is affected, it will be updated accordingly. For questions or assistance, please contact the Faculty of Engineering at engineering@qut.edu.au.
To complete your degree within the standard timeframe (4 years for full-time or 8 years for part-time), it is recommended to follow the provided study plan as not all units are offered every semester. This will ensure that you satisfy all prerequisites where applicable.
Study costs
Domestic students may need to pay the Student Services and Amenities Fee (SSAF).
Course Structures
For students commencing from 2025, your QUT Bachelor of Engineering (Honours) degree consists of 32 units (384 credit points) arranged as follows:
(a) Core units (96 credit points) consisting of:
60 credit points of First Year units:
- Three core engineering units (36 credit points)
- An introductory unit in engineering mathematics (12 credit points), chosen from a list of two units depending on the student's mathematical preparedness
- Engineering Mathematics and Statistics (12 credit points)
And 36 credit points of Honours units:
- Research Methods (12 credit points)
- Project (24 credit points)
(b) A Major (216 credit points) consisting of:
- Eleven bachelor-level major units in the major (132 credit points)
- Five advanced Honours-level units in the major (60 credit points)
- Two Discipline Extension Units (24 credit points)
(c) Complementary Studies (48 credit points) consisting of:
- An Engineering Minor (a 4-unit set of 48 credit points) from the options for your chosen Major
(d) Four QUT You units (24 credit points comprising 4 x 6 credit point units) of your choice.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB102 Equivalents: EGB113, EGD102 | Fundamentals of Engineering Science |
| |
| EGB103 Equivalents: EGD103 | Computing and Data for Engineers |
| Antirequisites: IFB104, ITD104 |
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB102 Equivalents: EGB113, EGD102 | Fundamentals of Engineering Science |
| |
| EGB103 Equivalents: EGD103 | Computing and Data for Engineers |
| Antirequisites: IFB104, ITD104 |
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| MZB127 Equivalents: EGD126, MZB126 | Engineering Mathematics and Statistics |
| Prerequisites: MZB125 or EGD125 or MXB161 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| MZB221 | Electrical Engineering Mathematics |
| Prerequisites: MZB126 or MZB127 or MXB105 |
| SELECT | Materials Strand Unit (EGB214) OR Minor unit | ||
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| OR | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| Intermediate Electrical Unit Option | |||
| SELECT | Dynamics Strand Unit (EGB211) OR Minor unit | ||
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| OR | |||
| Minor unit | |||
| QUT You | |||
| QUT You | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB420 | Machine Learning |
| Prerequisites: (CAB201 or CAB202 or ITD121 or IFN501 or IFN556 or (Admission to EN50 or EN55 or EN52 or EN56 or EN62 or EN72)) or (192cps in SV03 or IV04 or MV05 or EV08) or (Admission to IV53 or IV54 or IV55 or IV56 or IV58). |
| SELECT | Dynamics Strand unit (EGB321) OR Materials Strand unit (EGB314) | ||
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| OR | |||
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| Advanced Electrical Unit Option OR Minor unit | |||
| QUT You | |||
| QUT You | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| Minor unit OR Advanced Electrical Unit Option | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| SELECT | Minor unit OR Materials Strand unit (EGH414) | ||
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| OR | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB339 Equivalents: ENB339 | Introduction to Robotics |
| Prerequisites: (MZB127 or EGD126 or MXB103) and (EGB103 or IFB104)MZB126 is assumed knowledge |
| EGH400-2 | Research Project 2 |
| Prerequisites: EGH400-1 |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| SELECT | Minor unit OR Dynamics Strand unit (EGH413) | ||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB102 Equivalents: EGB113, EGD102 | Fundamentals of Engineering Science |
| |
| EGB103 Equivalents: EGD103 | Computing and Data for Engineers |
| Antirequisites: IFB104, ITD104 |
| SELECT | MZB125 Introductory Engineering Mathematics OR MXB161 Computational Explorations. If you have obtained Sound Achievement (or higher) in Mathematical Methods and Specialist Mathematics, you must choose MXB161 Computational Explorations. | ||
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| MZB127 Equivalents: EGD126, MZB126 | Engineering Mathematics and Statistics |
| Prerequisites: MZB125 or EGD125 or MXB161 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MZB221 | Electrical Engineering Mathematics |
| Prerequisites: MZB126 or MZB127 or MXB105 |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| SELECT | Materials Strand Unit (EGB214) OR 2nd Major/Minor unit | ||
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| OR | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| Intermediate Electrical Unit Option | |||
| SELECT | Dynamics Strand Unit (EGB211) OR 2nd Major/Minor unit | ||
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| 2nd Major/Minor unit | |||
| OR | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| SELECT | Dynamics Strand unit (EGB321) OR Materials Strand unit (EGB314) | ||
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| OR | |||
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| Advanced Electrical Unit Option OR 2nd major/Minor unit | |||
| 2nd major/Minor unit | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| 2nd major/Minor unit OR Advanced Electrical Unit Option | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| SELECT | 2nd Major/Minor unit OR Materials Strand unit (EGH414) | ||
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| OR | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-2 | Research Project 2 |
| Prerequisites: EGH400-1 |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| SELECT | 2nd Major/Minor unit OR Dynamics Strand unit (EGH413) | ||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | |||
| 2nd Major/Minor unit | |||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB100 Equivalents: ENB100 | Engineering Sustainability and Professional Practice |
| |
| EGB111 Equivalents: ENB150 | Foundation of Engineering Design |
| Prerequisites: EGB100 (can be enrolled in the same teaching period) |
| EGB113 Equivalents: ENB130 | Energy in Engineering Systems |
| Antirequisites: EGD113,PVB101 |
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
Please note that the highlighted units must be enrolled in the year and semester specified
The highlighted units are CAB202, EGB242, EGB345, EGH404, EGH400-1 and EGH400-2.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| OR | 2nd Major/Minor Unit | ||
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| OR | 2nd Major/Minor unit | ||
| Intermediate Electrical Unit Option OR 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| OR | 2nd Major/Minor unit | ||
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| OR | 2nd Major/Minor unit | ||
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| OR | 2nd major/Minor unit | ||
| OR | |||
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| OR | 2nd Major/Minor unit | ||
| Advanced Electrical Unit Option or 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | 2nd Major/Minor unit | ||
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| OR | |||
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| Intermediate/ Advanced Electrical Unit Option OR 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| OR | 2nd Major/Minor unit | ||
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| OR | 2nd Major/Minor unit | ||
| Advanced Electrical Unit Option OR 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-2 | Research Project 2 |
| Prerequisites: EGH400-1 |
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | 2nd Major/Minor unit | ||
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| OR | 2nd Major/Minor unit | ||
| Advanced Electrical Unit Option OR 2nd Major/Minor unit | |||
This is an example study plan for students on a relatively standard progression, however, depending on which units and second majors/minors you choose, you may need to deviate from that plan. Please contact engineering@qut.edu.au if you wish to discuss your study plan options.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB102 Equivalents: EGB113, EGD102 | Fundamentals of Engineering Science |
| |
| EGB103 Equivalents: EGD103 | Computing and Data for Engineers |
| Antirequisites: IFB104, ITD104 |
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| MZB127 Equivalents: EGD126, MZB126 | Engineering Mathematics and Statistics |
| Prerequisites: MZB125 or EGD125 or MXB161 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| Intermediate Electrical Option | |||
| SELECT | Dynamics Strand unit (EGB211) OR Minor unit | ||
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| OR | |||
| Minor unit | |||
| MZB221 | Electrical Engineering Mathematics |
| Prerequisites: MZB126 or MZB127 or MXB105 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| SELECT | Dynamics Strand unit (EGB321) OR Minor unit | ||
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| OR | |||
| Minor unit | |||
| SELECT | Materials Strand unit (EGB214) OR Minor Unit | ||
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| OR | |||
| Minor unit | |||
| QUT You | |||
| QUT You | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| SELECT | Materials Strand unit (EGB314) OR Minor unit | ||
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| OR | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB339 Equivalents: ENB339 | Introduction to Robotics |
| Prerequisites: (MZB127 or EGD126 or MXB103) and (EGB103 or IFB104)MZB126 is assumed knowledge |
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| SELECT | Dynamics Strand unit (EGB413) OR Minor unit | ||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | |||
| Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB420 | Machine Learning |
| Prerequisites: (CAB201 or CAB202 or ITD121 or IFN501 or IFN556 or (Admission to EN50 or EN55 or EN52 or EN56 or EN62 or EN72)) or (192cps in SV03 or IV04 or MV05 or EV08) or (Admission to IV53 or IV54 or IV55 or IV56 or IV58). |
| EGH400-2 | Research Project 2 |
| Prerequisites: EGH400-1 |
| Advanced Electrical Option Unit | |||
| SELECT | Materials Strand unit (EGH414) OR Minor unit | ||
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| OR | |||
| Minor unit | |||
This is an example study plan for students on a relatively standard progression, however, depending on which units and second majors/minors you choose, you may need to deviate from that plan. Please contact engineering@qut.edu.au if you wish to discuss your study plan options.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB102 Equivalents: EGB113, EGD102 | Fundamentals of Engineering Science |
| |
| EGB103 Equivalents: EGD103 | Computing and Data for Engineers |
| Antirequisites: IFB104, ITD104 |
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| MZB127 Equivalents: EGD126, MZB126 | Engineering Mathematics and Statistics |
| Prerequisites: MZB125 or EGD125 or MXB161 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MZB221 | Electrical Engineering Mathematics |
| Prerequisites: MZB126 or MZB127 or MXB105 |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| Intermediate Electrical Option | |||
| Select one of: | |||
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| OR | 2nd Major/Minor Unit | ||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| Select one of: | |||
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| OR | 2nd Major/Minor Unit | ||
| Select one of: | |||
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| OR | 2nd Major/Minor Unit | ||
| 2nd Major/Minor Unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| Select one of: | |||
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| OR | 2nd Major/Minor unit | ||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| 2nd Major/Minor Unit | |||
| Select one of: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | 2nd Major/Minor Unit | ||
If you intend to select the Civil Engineering Major, please refer your first year study plan at Civil major 1st Year - July Entry.
OR
If you intend to select the Medical Engineering Major, please refer your first year study plan at Medical major 1st Year - July Entry
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| OR | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| EGB100 Equivalents: ENB100 | Engineering Sustainability and Professional Practice |
| |
| EGB113 Equivalents: ENB130 | Energy in Engineering Systems |
| Antirequisites: EGD113,PVB101 |
| OR | |||
| PVB101 Equivalents: PVB105 | Physics of the Very Large |
| Antirequisites: EGB113, ENB130, PCB150Maths B or equivalent is assumed knowledge. |
| EGB123 | Civil Engineering Systems |
| |
| OR | |||
| Foundation Unit Option | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MZB126 | Engineering Computation |
| Prerequisites: MZB125 or MXB161Antirequisites: EGD126 |
| EGB111 Equivalents: ENB150 | Foundation of Engineering Design |
| Prerequisites: EGB100 (can be enrolled in the same teaching period) |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| OR | |||
| Foundation Unit Option | |||
This is an example study plan for students on a relatively standard progression, however, depending on which units and second majors/minors you choose, you may need to deviate from that plan. Please contact sef.enquiry@qut.edu.au if you wish to discuss your study plan options.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| 2nd Major/Minor Unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| Select one of: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | Intermediate Electrical Option Unit | ||
| Select one of: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | 2nd Major/Minor Unit | ||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH404 Equivalents: EGH403 | Research in Engineering Practice |
| Prerequisites: 144 Credit Points of completed study or Admission to EN60Knowledge and applied skills in an engineering discipline.Experimental/Maths skills to plot and analyse sets of results.Measurement skills including errors in measurements and statistics.Software skills to record, manage, analyse and plot data. |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| 2nd Major/Minor unit | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH400-1 | Research Project 1 |
| Prerequisites: (EGH403 OR EGH404) AND Completion of 240cp (EN01 or associated double degree). EGH404 can be studied in the same teaching period as EGH400-1. |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| 2nd Major/Minor Unit | |||
| Select one of: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| OR | Intermediate Electrical Option Unit | ||
| OR | 2nd Major/Minor Unit | ||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| Select the All Engineering Foundation Strand unless you have a preferred major. | |||
| All Engineering Foundation Strand (EN01STR-FNALLMJ) | |||
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB123 | Civil Engineering Systems |
| |
| Civil Engineering Foundation Strand (EN01STR-FNCIVIL) | |||
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB123 | Civil Engineering Systems |
| |
| Plus Select 12cp from the Foundation Unit Option List | |||
| Electrical and Mechanical Engineering Foundation Strand (EN01STR-FNECMEC) | |||
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| Plus Select 12cp from the Foundation Unit Option List | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MZB125 Equivalents: MAB125, MAB100, MAB120 | Introductory Engineering Mathematics |
| Antirequisites: EGD125, MXB100Grade of at least Sound Achievement in Senior Mathematics B (or equivalent) or MAB105 or MZB101 is assumed knowledge |
| (Only for students who haven't completed Maths C) | |||
| BVB101 Equivalents: BZB210 | Foundations of Biology |
| |
| CVB101 Equivalents: EGB161 | General Chemistry |
| Antirequisites: CZB190 |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB123 | Civil Engineering Systems |
| |
| ERB101 Equivalents: NQB201 | Earth Systems |
| |
| ERB102 Equivalents: NQB202 | Evolving Earth |
| |
| ERB204 Equivalents: NQB412 | Deforming Earth: Fundamentals of Structural Geology |
| Prerequisites: (ERB101 and (SEB113 or MXB105 or MZB125)) or admission to ST20 |
| EVB102 | Ecosystems and the Environment |
| |
| EVB203 Equivalents: UDB181 | Geospatial Information Science |
| Prerequisites: Completion of 48 credit points, or enrollment in ST20 |
| IFB104 Equivalents: INB104, IND104, ITB001 | Building IT Systems |
| Antirequisites: ITD104, CAB201, EGB103, EGD103 |
| KKB191 Equivalents: OUB110, EDB039 | Am I black enough? Indigenous Australian Representations |
| |
| KKB193 Equivalents: OUB130, EDB040 | Indigenous Knowledge: Research Ethics and Protocols |
| |
| MXB105 Equivalents: MAB121, PVB200 | Calculus and Differential Equations |
| Antirequisites: PVB201Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB106 Equivalents: MAB112, MAB122, MAB132, PVB202 | Linear Algebra |
| |
| MXB107 | Introduction to Statistical Modelling |
| Specialist Mathematics or MXB100, or concurrently enrolled in MXB100. |
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| PVB102 | Physics of the Very Small |
| Maths B or equivalent is assumed knowledge. |
| SEB200 | Communicating Science and Mathematics to Diverse Audiences |
| |
| The following discontinued units will still count towards core unit option: | |||
| CRB040 Learning Science Through Teaching (disc 30/06/2019) | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ENGFNDS (v1) | |||
| QCD210 | Academic Communication 2 |
| Antirequisites: QCD211 |
| EGD105 Equivalents: MAB105, MZB101 | Modelling with Introductory Calculus |
| |
| Select 24 cps from the Engineering Foundations Minor Option List | |||
| QCD110 | Academic Communication 1 |
| Antirequisites: QCD111, QCD120 |
| CWB200 Equivalents: CWB103 | Interpersonal and Intercultural Negotiation |
| |
| CWB111 Equivalents: KWB114 | Scientific and Technical Writing |
| SA in Senior English or equivalent is assumed knowledge. |
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB123 | Civil Engineering Systems |
| |
| EGB161 Equivalents: CVB101,CVB102 | Foundations of Engineering Chemistry |
| Prerequisites: EGB101 or EGB102 |
| IFB240 Equivalents: CAB240, ITD240 | Cyber Security |
| |
| EGB124 | Engineering for the Environment |
| |
| CWB201 Equivalents: KWB213, KWB106 | Corporate Writing and Editing |
| |
Unit Lists
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| EGH456 Equivalents: ENB350 | Embedded Systems |
| Prerequisites: CAB403 or Admission to (EN50, EN55 or EN60) |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| EGH455 | Advanced Systems Design |
| Prerequisites: CAB403 or Admission to EN60 |
| EGH456 Equivalents: ENB350 | Embedded Systems |
| Prerequisites: CAB403 or Admission to (EN50, EN55 or EN60) |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| QUT001 | QUT You: Artificial Intelligence in the Real World |
| |
| QUT002 | QUT You: Walking on Country |
| |
| QUT003 | QUT You: Real Action for Real Change |
| |
| QUT004 | QUT You: Living and Working Collaboratively, Ethically, and Inclusively |
| |
| QUT005 | QUT You: Seeing Me, Seeing You: Skills for a Diverse World |
| |
| QUT006 | QUT You: The Art of Pitching |
| |
| QUT007 | QUT You: Fighting 'Fake News' |
| |
| QUT008 | QUT You: Think Like a Computer and Change the World |
| |
| QUT009 | QUT You: Data Science for Society |
| |
| QUT010 | QUT You: People with Robots |
|
Engineering curriculum changes
There are a number of changes to units and study areas from 2022 which may affect your enrolment. Study plans for affected students have been updated. Please contact the Faculty by email: engineering@qut.edu.au if you have any questions or need assistance.
|
Semester 2, 2023 or earlier |
Change |
From Semester 1, 2024 |
|
EGH476 Advanced Water and Wastewater Engineering |
Discontinued |
No replacement. |
| Semester 1, 2023 or earlier |
Change |
From Semester 2, 2023 |
|
EGB340 Design and Practice |
Discontinued |
Replaced with EGH419 in EN01 Electrical Major Replaced with EGB320 in EV01 Electrical Major |
|
EGH442 RF Techniques and Applications |
Discontinued | No replacement - removed from options lists. |
|
EGB342 Telecommunications and Signal Processing |
Unit Title Change | EGB342 Telecommunications and RF |
|
EGH443 Advanced Telecommunications |
Unit Title Change | EGH443 Advanced Telecommunications and RF |
|
EGH419 Mechatronics Design 3 |
Unit Title Change | EGH419 Advanced Design and Entrepreneurship |
|
2021 or earlier |
Change |
From 2022 |
|
EGB100 Engineering Sustainability & Professional Practice |
Substitute with |
EGB101 Engineering Design and Professional Practice |
|
EGB111 Foundations of Engineering (last offering Semester 1, 2022) |
Substitute with |
Refer to Faculty for advice |
|
EGB113 Energy in Engineering Systems |
Equivalent |
EGB102 Fundamentals of Engineering Science |
|
EGB211 Dynamics |
Semester of offer |
EGB211 previously offered in both Sem 1 and Sem 2; from 2022 offered in Sem 2 only |
|
EGB262 Process Principles (last offering Sem 1, 2022) |
Equivalent; Semester of offer |
EGB160 Process Principles (First offering Sem 2, 2022. From 2023 EGB160 will be offered in both Sem 1 and Sem 2) |
|
EGB314 Solid Mechanics |
Semester of offer |
EGB314 previously offered in both Sem 1 and Sem 2; from 2022 offered in Sem 1 only |
|
EGB323 Fluid Mechanics |
Semester of offer |
EGB323 previously offered in both Sem 1 and Sem 2; from 2022 offered in Sem 1 only |
|
CVB101 Engineering Chemistry |
Equivalent |
EGB161 Foundations of Engineering Chemistry (From 2023 EGB161 will be offered in both Sem 1 and Sem 2.) |
|
CVB102 Chemical Structures and Reactivity |
Equivalent |
EGB161 Foundations of Engineering Chemistry |
|
CVB211 Industrial Chemistry |
Equivalent |
EGH411 Sustainable Chemical Engineering in Practice |
|
CVB221 Unit Operations |
Equivalent |
EGB261 Unit Operations |
|
MZB126 Engineering Computation (last offering Sem 1, 2022) |
Equivalent |
MZB127 Engineering Mathematics and Statistics (First offering Sem 2, 2022. From 2023 MZB127 will be offered in both Sem 1 and Sem 2.) |
|
EGB361 Minerals Processing (Last offering Sem 1, 2023) |
Equivalent |
EGH464 Sustainable Minerals Processing (First offering Sem 1,2024) |
EN01 Study Areas B (Second Majors, Minors)
|
2021 or earlier |
Change |
From 2022 |
|
EGB315 Materials Degradation |
No equivalent or replacement |
Removed from Study Area B option list |
|
EGB336 Lean Manufacturing Management |
No equivalent or replacement |
Removed from Study Area B option list |
|
EGB425 Computational Fluid Dynamics |
Substitute with |
Refer to Faculty for advice |
|
EGB434 Tribology |
No equivalent or replacement |
Removed from Study Area B option list |
|
EGB436 Industrial Automation |
No equivalent or replacement |
Removed from Study Area B option list |
|
EGB486 Bridge Engineering |
Substitute with |
EGB473 Composite Structures in EN01SMJ-STRUENG v1 Structural Engineering Second Major. |
The following units have title changes.
|
Unit Code |
2021 unit title |
Revised unit title from 2022 |
|
EGB314 |
Strength of Materials |
Solid Mechanics |
|
EGB319 |
BioDesign |
Medical Device Design |
|
EGB361 |
Minerals and Minerals Processing |
Minerals Processing |
|
EGB422 |
Energy Management |
Energy Management and Sustainability |
|
EGH411 |
Industrial Chemistry |
Sustainable Chemical Engineering in Practice |
|
EGH422 |
Advanced Thermodynamics |
Heat Transfer |
|
EGH423 |
Fluids Dynamics |
Fluid Dynamics |
|
EGH463 |
Plant and Process Design |
Process Design |
Study Area Description
The Aerospace Engineering second major is designed to give you knowledge and concepts concerned with design, development, manufacture and maintenance work on military and civilian aeroplanes, helicopters, and unmanned aerial vehicles (UAVs).
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01SMJ-ELECAER | |||
| EGB243 Equivalents: ENB121 | Aircraft Systems and Flight |
| Prerequisites: (EGB102 or EGB113 or EGD113 or PVB101) and (MZB126 or EGD126 or MZB127 or (MXB105 and MXB107)) and EGB323. |
| EGB346 | Unmanned Aircraft Systems |
| Prerequisites: EGB243EGB240 is assumed knowledge |
| EGH450 | Advanced Unmanned Aircraft Systems |
| Prerequisites: EGB346 or Admission to (EN50, or EN55 or EN60). EGH450 may be enrolled in the same semester as EGB346.EGB349 is assumed knowledge |
| EGB349 | Systems Engineering and Design Project |
| Prerequisites: EGB240 or EGB220 |
| Plus four units (48 credit points) from the options list: | |||
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| EGB240 | Electronic Design |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB342 | Telecommunications and RF |
| Prerequisites: EGB242Differential and integral calculus typically covered in the first year of the course or equivalent is assumed knowledge |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGH442 Equivalents: ENB440 | RF Techniques and Applications | Prerequisites: EGB342 or ENB342 or ENB346Basic knowledge of transmission line principles and general calculus is assumed knowledge | |
| EGH443 Equivalents: ENB446 | Advanced Telecommunications and RF |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60) |
| EGH444 Equivalents: ENB448 | Digital Signals and Image Processing |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60)Linear Algebra, Basic probability and statistics, Differential and integral calculus, complex numbers and exponential representations are assumed knowledge |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
Applied Economics and Finance Second Major - BSBXSMJ-AEFSEF
Study Area Description
This second major will develop broad economics and finance knowledge applicable to all types of business activities. Economics know-how guides the strategic direction of firms and government to respond to changes in global economic conditions, structural changes within the sector or changes in policy settings from treasury to health and education and everything in between. Finance is a dynamic field, focusing on the borrowing, lending and investing of money by individuals, financial institutions, business and government organisations. You will learn core concepts and skills in finance, including financial instruments and financial analysis. Key concepts and knowledge, problem solving skills, critical and analytical thinking are developed throughout the entire major to enhance employability.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| BSBXSMJ-AEFSEF | |||
| EFB210 Equivalents: EFX210 | Fundamentals of Finance |
| Prerequisites: 48 credit points of completed study |
| EFB228 Equivalents: EFB331, EFX331 | Microeconomics |
| Prerequisites: 24 credit points of completed study |
| EFB229 Equivalents: EFB330, EFX330 | Macroeconomics |
| Prerequisites: 24 credit points of completed study |
| EFB201 Equivalents: EFX201 | Financial Markets |
| Prerequisites: 48 credit points of completed studies |
| Select 4 units (48 credit points) from the following (subject to pre-requisite structure) | |||
| EFB222 Equivalents: EFX222 | Introduction to Applied Econometrics |
| Prerequisites: 24 Credit Points of Study |
| EFB226 Equivalents: EFX226 | Environmental Economics and Policy |
| |
| EFB332 Equivalents: EFX332 | Applied Behavioural Economics |
| Prerequisites: EFB228 or EFB331 or EFB337 |
| EFB333 Equivalents: EFX333 | Applied Econometrics |
| Prerequisites: EFB222 |
| EFB336 Equivalents: EFX336 | International Economics |
| Prerequisites: EFB228 or EFB223Antirequisites: EFB314 |
| EFB337 Equivalents: EFX337 | Game Theory and Applications | Prerequisites: EFB228 or EFB223 | |
| EFB344 Equivalents: EFX344 | Risk Management and Derivatives |
| Prerequisites: EFB201 and EFB210 |
| EFB225 Equivalents: EFX225 | Economics for the Real World | Prerequisites: 24 Credit Points of Study | |
| EFB349 | Macroeconomic Policy |
| Prerequisites: EFB229 or EFB223 |
| EFB341 | Development Economics: An Immersive Experience |
| Other Requisites: Subject to Unit Coordinator Approval. Students are required to complete a minimum of 48 credit points of study. |
| EFB346 | Market Structure and Regulation |
| Prerequisites: EFB228 or EFB223 |
| EFB347 | Student Managed Investment Fund 1 |
| Prerequisites: EFB335Other Requisites: Minimum Grade Point Average (GPA) of 5 and a selection interview, if required |
| EFB348 | Student Managed Investment Fund 2 |
| Prerequisites: EFB347 |
| EFB312 Equivalents: EFX312 | International Finance |
| Prerequisites: EFB201 and EFB210Antirequisites: EFB240, IBB202 |
| EFB343 Equivalents: EFX343 | Corporate Finance |
| Prerequisites: EFB210Antirequisites: EFB307 |
| EFB338 Equivalents: EFB329, EFX338 | Contemporary Application of Economic Theory |
| Prerequisites: (Completion of 168 credit points) and (EFB222, EFB228 & EFB229) or (EFB330 & EFB331)This unit is the capstone unit for the Economics primary major and is designed to be completed in the final year of study. |
| EFB335 Equivalents: EFX335 | Investments |
| Prerequisites: EFB201 and EFB210 |
| BSB305 | Undergraduate Business Internship |
| Prerequisites: 192 credit points of undergraduate study completed in current course and a GPA of at least 4.0 |
Study Area Description
This second major provides students with a customised program that suplements their degree with complementary essential knowledge in the use of modelling, computation, simulation and visualisation, applicable across the fields of science and engineering
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MSENSMJ-COMPSIM ver 2 | |||
| MXB261 Equivalents: INB360, MAB480 | Modelling and Simulation Science |
| Programming experience; sound achievement in Senior Mathematics B is assumed knowledge. |
| MXB262 Equivalents: MAB481 | Visualising Data |
| Prerequisites: SEB113 or MXB107 or MXB161 or MXB261 or MZB126Programming skills are assumed knowledge |
| MXB361 | Aspects of Computational Science |
| Prerequisites: MZB127 or MXB161 or MXB261Sound programming skills; MXB100 or Specialist Mathematics is assumed knowledge. |
| MXB362 Equivalents: MAB681 | Advanced Visualisation and Data Science |
| Prerequisites: MXB262 |
| Plus four units (48 credit points) from the Unit Options list: | |||
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB301 Equivalents: INB371 | Algorithms and Complexity |
| Prerequisites: (CAB201 or ITD121) |
| CAB401 Equivalents: INB375 | High Performance and Parallel Computing |
| Prerequisites: IFN584 or (IFN563 and IFN564) or (IFQ563 and IFQ564) or CAB301 or IFN505 |
| EGB322 Equivalents: ENB222 | Thermodynamics |
| |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| EGB485 Equivalents: ENB474 | Finite Element Analysis |
| Prerequisites: EGB475 or Admission to (EN50 or EN55 or EN60) |
| EGH435 Equivalents: ENB335 | Modelling and Simulation for Medical Engineers |
| Prerequisites: EGH414LSB131, LSB231 and EGH418 are assumed knowledge |
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| The following discontinued units still count towards this Second Major: | |||
| EGB324 Fundamentals in Numerical Modelling for Engineering (disc 31/12/2020) | |||
| EGB424 Advanced Computational Fluid Dynamics (disc 31/12/2020) | |||
Study area description
Computer and software systems engineers are specialist software engineers that have a deep understanding of the underlying computer systems and electronic devices on which their software will execute. Such expertise is required to program operating systems, communication software and software embedded in devices ranging from mobile devices to GPSs, satellites and aircraft flight systems. The discipline combines principles of computer science with the rigour and problem-solving skills of engineering.
Important enrolment information
EN01 Electrical major, EN01 Electrical and Aerospace major or EN01 Mechatronics major students:
Please send an email to sef.enquiry@qut.edu.au and confirm that you would like to be enrolled in the Computer and Software Systems Second Major (EN01SMJ-COMSOFT), the staff will assist you with your enrolment.
If you are majored in EN01 Electrical major, EN01 Electrical and Aerospace major or EN01 Mechatronics and would like to undertake Computer and Software Systems second major you will need to take a replacement unit to substitute CAB202. Please refer to the CAB202 replacement unit list.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01SMJ-COMSOFT | |||
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| Note: For Electrical, Mechatronics and Electrical and Aerospace students please refer to the CAB202 replacement list as CAB202 is overlapping with major core unit | |||
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| EGH456 Equivalents: ENB350 | Embedded Systems |
| Prerequisites: CAB403 or Admission to (EN50, EN55 or EN60) |
| EGH455 | Advanced Systems Design |
| Prerequisites: CAB403 or Admission to EN60 |
| Plus one unit (12 credit points) from the Software Engineering Unit Option List: | |||
| CAB203 Equivalents: INB250 | Discrete Structures |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| CAB301 Equivalents: INB371 | Algorithms and Complexity |
| Prerequisites: (CAB201 or ITD121) |
| CAB302 Equivalents: INB370 | Software Development |
| Prerequisites: CAB201 or INB270 or ITD121 |
| CAB401 Equivalents: INB375 | High Performance and Parallel Computing |
| Prerequisites: IFN584 or (IFN563 and IFN564) or (IFQ563 and IFQ564) or CAB301 or IFN505 |
| CAB402 | Programming Paradigms |
| Prerequisites: IFN584 or ((CAB201 or ITD121) and (CAB203 or CAB220 or DSB100 or MZB127)) or (IFN563 and IFN564) or (IFQ563 and IFQ564) |
| CAB432 Equivalents: INB356 | Cloud Computing |
| Prerequisites: CAB301 or CAB302 or INB370 or INB371 or IFN666 or IFQ666 or (IFN582 and IFN584) or (IFQ582 and IFQ584)You have the option to use either Python or Javascript for assessments. It's expected that you have good programming skills in one of these languages, or have good skills in another language and the ability to learn Python or Javascript on your own. |
| Plus one unit (12 credit points) from the Electrical Engineering Unit Option List: | |||
| EGB240 | Electronic Design |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB342 | Telecommunications and RF |
| Prerequisites: EGB242Differential and integral calculus typically covered in the first year of the course or equivalent is assumed knowledge |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGH444 Equivalents: ENB448 | Digital Signals and Image Processing |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60)Linear Algebra, Basic probability and statistics, Differential and integral calculus, complex numbers and exponential representations are assumed knowledge |
| EGH443 Equivalents: ENB446 | Advanced Telecommunications and RF |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60) |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| Plus one unit (12 credit points) from either - | |||
| Electrical Engineering Unit Option List: | |||
| EGB240 | Electronic Design |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB342 | Telecommunications and RF |
| Prerequisites: EGB242Differential and integral calculus typically covered in the first year of the course or equivalent is assumed knowledge |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGH443 Equivalents: ENB446 | Advanced Telecommunications and RF |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60) |
| EGH444 Equivalents: ENB448 | Digital Signals and Image Processing |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60)Linear Algebra, Basic probability and statistics, Differential and integral calculus, complex numbers and exponential representations are assumed knowledge |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| Or | |||
| Software Engineering Unit Option List: | |||
| CAB203 Equivalents: INB250 | Discrete Structures |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| CAB301 Equivalents: INB371 | Algorithms and Complexity |
| Prerequisites: (CAB201 or ITD121) |
| CAB302 Equivalents: INB370 | Software Development |
| Prerequisites: CAB201 or INB270 or ITD121 |
| CAB401 Equivalents: INB375 | High Performance and Parallel Computing |
| Prerequisites: IFN584 or (IFN563 and IFN564) or (IFQ563 and IFQ564) or CAB301 or IFN505 |
| CAB402 | Programming Paradigms |
| Prerequisites: IFN584 or ((CAB201 or ITD121) and (CAB203 or CAB220 or DSB100 or MZB127)) or (IFN563 and IFN564) or (IFQ563 and IFQ564) |
| CAB432 Equivalents: INB356 | Cloud Computing |
| Prerequisites: CAB301 or CAB302 or INB370 or INB371 or IFN666 or IFQ666 or (IFN582 and IFN584) or (IFQ582 and IFQ584)You have the option to use either Python or Javascript for assessments. It's expected that you have good programming skills in one of these languages, or have good skills in another language and the ability to learn Python or Javascript on your own. |
If you are enrolled in EN01 Electrical major, EN01 Electrical and Aerospace major or EN01 Mechatronics major and would like to undertake Computer and Software Systems second major, please submit a Change of Major request and state that you also require the CAB202 replacement unit list to be added to your study plan.
Once approved, you will need to take one of the units from below as replacement for CAB202 in the Computer and Software Systems second major.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB203 Equivalents: INB250 | Discrete Structures |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| CAB210 | User Experience Fundamentals |
| Prerequisites: IFB103 or INB103 or ITD103 or INB182 or EGB100 or ENB100 or EGB101 or IGB120 |
| CAB230 Equivalents: INB271 | Web Computing |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| CAB240 Equivalents: INB255, IFB240 | Information Security |
| |
| CAB301 Equivalents: INB371 | Algorithms and Complexity |
| Prerequisites: (CAB201 or ITD121) |
| CAB302 Equivalents: INB370 | Software Development |
| Prerequisites: CAB201 or INB270 or ITD121 |
| CAB303 Equivalents: INB251 | Networks |
| Prerequisites: IFB102 or ITD102 |
| CAB310 | Interaction and Experience Design |
| Prerequisites: CAB210 |
| CAB320 | Artificial Intelligence |
| Prerequisites: (INB270 or CAB201 or ITD121 or CAB202) and (MZB151 or ENB246 or MZB126 or EGD126 or MZB127 or MXB103 or MXB100) |
| CAB330 Equivalents: INB342 | Data and Web Analytics |
| Prerequisites: CAB220 or DSB100 or CAB230 or IAB207Familiarity with the following IT concepts at the introductory level: Elementary Statistics; Basic Database Concepts; Finding library resources; and Issues involved in aligning business technology and information systems are assumed knowledge. |
| CAB340 | Cryptography |
| Prerequisites: CAB203 or MXB102Antirequisites: INB355Knowledge of Discrete Mathematics is assumed knowledge |
| CAB401 Equivalents: INB375 | High Performance and Parallel Computing |
| Prerequisites: IFN584 or (IFN563 and IFN564) or (IFQ563 and IFQ564) or CAB301 or IFN505 |
| CAB402 | Programming Paradigms |
| Prerequisites: IFN584 or ((CAB201 or ITD121) and (CAB203 or CAB220 or DSB100 or MZB127)) or (IFN563 and IFN564) or (IFQ563 and IFQ564) |
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| CAB420 | Machine Learning |
| Prerequisites: (CAB201 or CAB202 or ITD121 or IFN501 or IFN556 or (Admission to EN50 or EN55 or EN52 or EN56 or EN62 or EN72)) or (192cps in SV03 or IV04 or MV05 or EV08) or (Admission to IV53 or IV54 or IV55 or IV56 or IV58). |
| CAB430 | Data and Information Integration |
| Prerequisites: (CAB220 or DSB100 or CAB201 or ITD121 or CAB202 or EGB103) or Admission to EN60 |
| CAB431 | Text Analysis and Web Search |
| Prerequisites: CAB201 or ITD121 |
| CAB432 Equivalents: INB356 | Cloud Computing |
| Prerequisites: CAB301 or CAB302 or INB370 or INB371 or IFN666 or IFQ666 or (IFN582 and IFN584) or (IFQ582 and IFQ584)You have the option to use either Python or Javascript for assessments. It's expected that you have good programming skills in one of these languages, or have good skills in another language and the ability to learn Python or Javascript on your own. |
| CAB440 | Network and Systems Administration |
| Prerequisites: CAB222 or CAB303 or INB251 |
| CAB441 | Network Security |
| Prerequisites: (IFB240 or CAB240 or INB255) and (CAB440 or INB351)Antirequisites: INN251 |
Study Area Description
The Mathematical Sciences second major in the Bachelor of Engineering degree provides students with the option to expand their knowledge, skills and experience in mathematical and statistical methodologies and techniques which underpin the large majority of quantitative methods used in the student's major area of study. Engineers need a thorough understanding of algebra and differential equations to find solutions to real-world problems. They also need geometry in solving physical problems involving, for example, planes, angles and design. Further, calculus is needed in solving orbit, optimisation and wave problems, while statistics is needed in designing experiments, quality control, reliability and system design. This second major is therefore vital for developing problem solving skills and thorough understanding of the mathematical principles and laws which describe the physical world.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MSENSMJ-ENGMATH ver 2 | |||
| Select ONE strand from the Maths for Engineering strand options | |||
| Applied and Computational Mathematics Strand | |||
| MXB102 | Abstract Mathematical Reasoning |
| |
| MXB103 Equivalents: MAB220 | Introductory Computational Mathematics |
| Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB105 Equivalents: MAB121, PVB200 | Calculus and Differential Equations |
| Antirequisites: PVB201Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB106 Equivalents: MAB112, MAB122, MAB132, PVB202 | Linear Algebra |
| |
| Select 48 credit points from the ACM options list: | |||
| MXB201 Equivalents: MAB312 | Advanced Linear Algebra |
| Prerequisites: MXB106 and (MXB102 or Admission to ST20)MXB105 is assumed knowledge. |
| MXB202 Equivalents: MAB311 | Advanced Calculus |
| Prerequisites: MXB105 and MXB106MXB102 is assumed knowledge. |
| MXB225 Equivalents: MAB413, MXB221 | Modelling with Differential Equations 1 |
| Prerequisites: MXB105MXB106 is assumed knowledge. |
| MXB226 Equivalents: MAB420, MXB222 | Computational Methods 1 |
| Prerequisites: MXB103 and MXB201 |
| MXB322 Equivalents: MAB613 | Partial Differential Equations |
| Prerequisites: (MXB201 and MXB202) or MXB225 or MXB221 or MAB413MXB202 is assumed knowledge. |
| MXB325 Equivalents: MAB521, MXB321 | Modelling with Differential Equations 2 |
| Prerequisites: MXB322 and (MXB225 or MXB221) |
| MXB326 | Computational Methods 2 |
| Prerequisites: MXB202 and (MXB226 or MXB222)Antirequisites: EGB324 |
| Operations Research and Statistics Strand | |||
| MXB101 Equivalents: MAB210 | Probability and Stochastic Modelling 1 |
| |
| MXB105 Equivalents: MAB121, PVB200 | Calculus and Differential Equations |
| Antirequisites: PVB201Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB106 Equivalents: MAB112, MAB122, MAB132, PVB202 | Linear Algebra |
| |
| MXB107 | Introduction to Statistical Modelling |
| Specialist Mathematics or MXB100, or concurrently enrolled in MXB100. |
| Select 48 credit points from the ORSTATS options list: | |||
| MXB232 Equivalents: MAB315 | Introduction to Operations Research |
| MXB100 or Senior Mathematics C or Senior Specialist Mathematics is assumed knowledge. |
| MXB241 Equivalents: MAB314 | Probability and Stochastic Modelling 2 |
| Prerequisites: MXB101 and MXB105 |
| MXB242 Equivalents: MAB414 | Regression and Design |
| Prerequisites: MXB107 |
| MXB332 Equivalents: MAB525 | Optimisation Modelling |
| Prerequisites: MXB232 or MAB315 |
| MXB334 Equivalents: MAB625 | Operations Research for Stochastic Processes |
| Prerequisites: MXB232 and MXB241 |
| MXB341 Equivalents: MAB524 | Statistical Inference |
| Prerequisites: MXB241 or MAB314 |
| MXB343 | Modelling Dependent Data | Prerequisites: (MXB242 or MAB414) and (MXB341 or MAB524) | |
| MXB344 Equivalents: MAB624 | Generalised Linear Models |
| Prerequisites: MXB242 |
Study Area Description
Mechanical engineering turns energy into power and motion. Mechanical engineers design, create, improve and maintain systems and machinery that are used for private and commercial purposes. They keep pace with technology and act as an interface between technology and society, playing an essential role contributing to the sustainability of the environment and future development of industry. Mechanical engineering interlinks closely with other areas of engineering and applies knowledge of materials, energy and structures.
The Mechanical Second Major 96cp (EN01SMJ-MECHNCL) compromises:
- At least 36 credit points selected from Advanced Mechanical Engineering Strand
- And the remaining credit points selected from Foundation Mechanical Engineering Strand
Please note this second major is offered only to Mechatronics, Medical Engineering and Process Engineering students.
If you are majoring in Electrical Engineering , Civil Engineering, Computer and Software Systems major, Electrical and Aerospace and are willing to take Mechanical second major you will need to choose Mechanical second major (EN01SMJ-MECHENG) instead.
| Unit List | |||
|---|---|---|---|
| Select at least 36 credit points selected from Advanced Mechanical Engineering Strand |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EGB261 Equivalents: CVB221 | Unit Operations |
| |
| EGB414 | Advanced Materials |
| Prerequisites: EGB214 |
| EGB415 Equivalents: ENB315 | Motor Racing Vehicle Design |
| Prerequisites: EGB316 Or Admission to (EN50 or EN55) |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| EGB423 Equivalents: ENB423 | Heating, Ventilation and Air Conditioning |
| Prerequisites: EGB323 Or Admission to (EN50 or EN55) |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| EGB435 | Advanced Manufacturing and Industrial Automation |
| Prerequisites: EGB214 Or Admission to (EN50 or EN55) |
| EGB439 | Advanced Robotics |
| Prerequisites: EGB339 Or Admission to (EN50 or EN55 or EN60)Robotics and Matlab programming is assumed knowledge |
| EGH411 Equivalents: CVB211 | Sustainable Chemical Engineering in Practice |
| Prerequisites: EGB264 or Admission to EN60 |
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| EGH418 Equivalents: ENB318 | Biomechanics |
| Prerequisites: EGB211 or ENB211LSB131 and LSB231 are assumed knowledge |
| EGH419 | Advanced Design and Entrepreneurship |
| Prerequisites: EGB320 or EGB240 or Admission to EN55 |
| EGH420 Equivalents: ENB317 | Mechanical Systems Design |
| Prerequisites: (EGB316 or ENB316) or (ENN516 and Admission to EN55) or Admission to EN60 |
| EGH421 Equivalents: ENB313 | Vibration and Control |
| Prerequisites: (EGB321 or ENB312) or Admission to (EN55 or EN60)Antirequisites: EGB345,EGH462 |
| EGH422 Equivalents: ENB421 | Heat Transfer |
| Prerequisites: (EGB322 or ENB222) or Admission to (EN50, EN55 or EN60) |
| EGH423 Equivalents: ENB321 | Fluid Dynamics |
| Prerequisites: (EGB322 or ENB222 or EGB323 or ENB221) or Admission to (EN55 or EN60) |
| EGH435 Equivalents: ENB335 | Modelling and Simulation for Medical Engineers |
| Prerequisites: EGH414LSB131, LSB231 and EGH418 are assumed knowledge |
| The remaining credit points are to be selected from Foundation Mechanical Engineering Strand | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| CVB101 Equivalents: EGB161 | General Chemistry |
| Antirequisites: CZB190 |
| EGB210 Equivalents: ENB215 | Fundamentals of Mechanical Design |
| Prerequisites: (EGB111 or EGB125) and EGB314 |
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB220 | Mechatronics Design 1 |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) and CAB202 |
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| EGB316 Equivalents: ENB316 | Design of Machine Elements |
| Prerequisites: EGB314 and (EGB210 or ENB215) or Admission to EN55 |
| EGB319 Equivalents: ENB319 | Medical Device Design |
| Prerequisites: EGB210 or EGB220 or ENB215 or ENB229 |
| EGB320 Equivalents: ENB329 | Mechatronics Design 2 |
| Prerequisites: EGB220 or EGB240 |
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| EGB322 Equivalents: ENB222 | Thermodynamics |
| |
| EGB323 Equivalents: ENB221 | Fluid Mechanics |
| Prerequisites: (MZB127 or MZB126) AND ( EGB102 or EGD102 or EGB113 or EGD113 or PVB101 or ENB130) |
| EGB336 Equivalents: ENB336 | Lean Manufacturing Management |
| |
| EGB339 Equivalents: ENB339 | Introduction to Robotics |
| Prerequisites: (MZB127 or EGD126 or MXB103) and (EGB103 or IFB104)MZB126 is assumed knowledge |
| MXB262 Equivalents: MAB481 | Visualising Data |
| Prerequisites: SEB113 or MXB107 or MXB161 or MXB261 or MZB126Programming skills are assumed knowledge |
| PLEASE NOTE: | |||
|---|---|---|---|
| The following unit options have been discontinued, but will still count towards this 2nd major: | |||
| Advanced: | |||
| EGB424 Advanced Computational Fluid Dynamics (disc 31/12/2020) | |||
| EGB434 Tribology | |||
| EGB436 Industrial Automation (disc 31/12/2021) | |||
| EGH461 Unit Operations (disc 31/12/2017) | |||
| Foundation: | |||
| EGB315 Materials Degradation (disc 31/12/2021) | |||
| EGB324 Fundamentals in Numerical Modelling for Engineering (disc 31/12/2020) | |||
| EGB336 Lean Manufacturing Management (disc 31/12/2021) | |||
| EGB363 Safety and Environmental Management (disc 31/12/2018) | |||
| EGH360 Plant and Process Design (disc 30/06/2018) |
Study area description
Medical engineering involves working with clinicians and medical scientists to design, manufacture and maintain medical equipment to improve health care and medical services. The discipline applies engineering and scientific methods to find solutions to problems in medicine and the life sciences. It may involve developing medical products and different types of equipment used to monitor and treat patients or designing and improving equipment for people with disabilities. Medical engineering integrates engineering principles with human physiology to design, manufacture, install, monitor and maintain medical and surgical equipment.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01SMJ-MEDICAL ver 2 | |||
| EGB319 Equivalents: ENB319 | Medical Device Design |
| Prerequisites: EGB210 or EGB220 or ENB215 or ENB229 |
| EGH424 Equivalents: ENB322 | Biofluids |
| Prerequisites: EGB323 or ENB221LSB131 and LSB231 are assumed knowledge |
| EGH418 Equivalents: ENB318 | Biomechanics |
| Prerequisites: EGB211 or ENB211LSB131 and LSB231 are assumed knowledge |
| EGH438 Equivalents: ENB338 | Biomaterials |
| Prerequisites: EGB314LSB131, LSB231 and EGB214 are assumed knowledge |
| EGH435 Equivalents: ENB335 | Modelling and Simulation for Medical Engineers |
| Prerequisites: EGH414LSB131, LSB231 and EGH418 are assumed knowledge |
| LSB142 Equivalents: LQB185, LQD185, LSB182, LSD142 | Human Anatomy and Physiology |
| |
| Choose 2 units from following Mechatronics or Mechanical major unit options | |||
| Mechatronics major unit options | |||
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| Mechanical major unit options | |||
| EGB241 | Electromagnetics and Machines |
| Prerequisites: (EGB120 or EGD120) AND (MZB126 or EGD126 or MZB127 or (MXB105 AND MXB107)) and MZB221. MZB221 can be enrolled in the same teaching period as EGB241.Basic knowledge of electrical circuit theory and calculus is assumed knowledge |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| The following unit options have been discontinued, but will still count towards the Mechanical major unit options for this Minor: | |||
| EGB336 Lean Manufacturing Management (disc. 31/12/2021) | |||
| EGB434 Tribology (disc. 31/12/2021) | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01SMJ-RENPOWR v1 | |||
| EGB341 | Energy Supply and Delivery |
| Prerequisites: EGB241 |
| EGB351 | Renewable Electrical Energy Sources |
| Prerequisites: EGB120 |
| EGH451 | Distributed Renewable Electrical Energy Systems |
| Prerequisites: (EGB351 and EGB120) or Admission to (EN53 or EN73 or EN76) |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| Core Option: Select one unit as follows: Students with Electrical Engineering as a primary major must select EGH445. All other students must select EGB348 | |||
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| Renewable Power Unit Options: Select three units as follows: Students with primary majors that are NOT from an electrical engineering discipline must complete EGH241, EGB242 and MZB221 | |||
| EGB241 | Electromagnetics and Machines |
| Prerequisites: (EGB120 or EGD120) AND (MZB126 or EGD126 or MZB127 or (MXB105 AND MXB107)) and MZB221. MZB221 can be enrolled in the same teaching period as EGB241.Basic knowledge of electrical circuit theory and calculus is assumed knowledge |
| EGB242 | Signal Analysis |
| Prerequisites: (EGB120 or EGD120) and (MZB126 or EGD126 or MZB127 or MXB105) and MZB221. MZB221 can be enrolled in the same teaching period as EGB242 |
| MZB221 | Electrical Engineering Mathematics |
| Prerequisites: MZB126 or MZB127 or MXB105 |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGH441 | Power System Modelling |
| Prerequisites: EGB341 or Admission to (EN50 or EN55 or EN60 or EN53 or EN73 or EN76)Basic knowledge of electric supply and energy sources and its impact on delivery systems |
| EGH452 | Design for Renewable Electrical Energy Systems |
| Prerequisites: ((EGB240 or EGB220) and EGB351)) or Admission to (EN53 or EN73 or EN76) |
| EGH454 | Power Systems Management with Renewable & Storage Resources |
| Prerequisites: EGB341 or Admission to (EN50, EN55 or EN60)Antirequisites: ENB454 |
- Please refer to the study sequences to plan your program. You must complete 48 credit points (normally four 12 credit point units) from the specified units to achieve a minor, following semester of offer and unit prerequisites (where applicable) to determine the order of enrolment.
- Any unit(s) that is mandatory in your primary major, can NOT be selected in your chosen minors.
- Any unit(s) that appear in multiple minors can only contribute towards the completion of one of these minors.
Study Area Description
The Aerospace Engineering minor develops the knowledge & skills required for an introduction to aerospace concepts. It develops an understanding of aerospace, and airspace environment.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ELECAER | |||
| EGB243 Equivalents: ENB121 | Aircraft Systems and Flight |
| Prerequisites: (EGB102 or EGB113 or EGD113 or PVB101) and (MZB126 or EGD126 or MZB127 or (MXB105 and MXB107)) and EGB323. |
| EGB349 | Systems Engineering and Design Project |
| Prerequisites: EGB240 or EGB220 |
| EGB346 | Unmanned Aircraft Systems |
| Prerequisites: EGB243EGB240 is assumed knowledge |
| Plus one unit (12 credit points) from the Unit Options list: | |||
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| EGB240 | Electronic Design |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) |
| EGB342 | Telecommunications and RF |
| Prerequisites: EGB242Differential and integral calculus typically covered in the first year of the course or equivalent is assumed knowledge |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGH450 | Advanced Unmanned Aircraft Systems |
| Prerequisites: EGB346 or Admission to (EN50, or EN55 or EN60). EGH450 may be enrolled in the same semester as EGB346.EGB349 is assumed knowledge |
Study Area Description
Electrical engineers work with electrical energy in all its forms: from tiny electrons or microchips to large-scale electrical power generators. In addition to designing new products, electrical engineers construct, operate, and maintain a variety of electrical systems and equipment. Electrical and electronic engineers can specialise in different areas such as power generation, transmission and distribution; communications and electrical equipment manufacturing, or a specialty within one of these areas such as aviation electronics, satellite communications or industrial robotics. Many electrical and electronics engineers also work in areas closely related to computers. Electrical Engineers often work together with senior administrators, civil and mechanical engineers, computer scientists or other professionals in the business, building and construction industries
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ADVELEC | |||
| Choose four units (48 credit points) from the options list: | |||
| EGB241 | Electromagnetics and Machines |
| Prerequisites: (EGB120 or EGD120) AND (MZB126 or EGD126 or MZB127 or (MXB105 AND MXB107)) and MZB221. MZB221 can be enrolled in the same teaching period as EGB241.Basic knowledge of electrical circuit theory and calculus is assumed knowledge |
| EGB339 Equivalents: ENB339 | Introduction to Robotics |
| Prerequisites: (MZB127 or EGD126 or MXB103) and (EGB103 or IFB104)MZB126 is assumed knowledge |
| EGB341 | Energy Supply and Delivery |
| Prerequisites: EGB241 |
| EGB342 | Telecommunications and RF |
| Prerequisites: EGB242Differential and integral calculus typically covered in the first year of the course or equivalent is assumed knowledge |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| EGB439 | Advanced Robotics |
| Prerequisites: EGB339 Or Admission to (EN50 or EN55 or EN60)Robotics and Matlab programming is assumed knowledge |
| EGH441 | Power System Modelling |
| Prerequisites: EGB341 or Admission to (EN50 or EN55 or EN60 or EN53 or EN73 or EN76)Basic knowledge of electric supply and energy sources and its impact on delivery systems |
| EGH443 Equivalents: ENB446 | Advanced Telecommunications and RF |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60) |
| EGH444 Equivalents: ENB448 | Digital Signals and Image Processing |
| Prerequisites: EGB342 or Admission to (EN50, EN55 or EN60)Linear Algebra, Basic probability and statistics, Differential and integral calculus, complex numbers and exponential representations are assumed knowledge |
| EGH445 Equivalents: ENB458, ENB347 | Modern Control |
| Prerequisites: EGB345 or EGH421 or Admission to (EN50, EN55 or EN60) |
| EGH446 | Autonomous Systems |
| Prerequisites: EGB345 or Admission to (EN50 or EN55 or EN60)Proficiency in MATLAB programming environment is assumed knowledge |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| EGH454 | Power Systems Management with Renewable & Storage Resources |
| Prerequisites: EGB341 or Admission to (EN50, EN55 or EN60)Antirequisites: ENB454 |
| The following discontinued units will still count towards this minor: | |||
| EGH440 Power Systems Analysis (disc 31/12/2018) | |||
| EGH442 RF Techniques and Applications (disc 31/12/23) | |||
Study Area Description
The Engineering Management Minor develops the knowledge & skills required for all science and engineering majors to understand the basics of engineering management including considerations like safety, environment, economics and work flow. It develops an understanding of these introductory concepts and the use of these concepts in the analysis and understanding of the engineering industry and engineering systems.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ENGMGMT ver 2 | |||
| Select 12 credit points from: Engineering Management unit options list 1 | |||
| ABB302 | Project Management |
| Prerequisites: ABB206 or UXB135 or Completion of 192cp |
| BSB131 Equivalents: BSB123, BSD131 | Applied Business Analytics |
| |
| EFB231 Equivalents: BSB113 | Economics |
| Antirequisites: EFB228 and EFB229 |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| MXB232 Equivalents: MAB315 | Introduction to Operations Research |
| MXB100 or Senior Mathematics C or Senior Specialist Mathematics is assumed knowledge. |
| Select 36 credit points from: Engineering Management unit options list 2 | |||
| ABB302 | Project Management |
| Prerequisites: ABB206 or UXB135 or Completion of 192cp |
| ABH422 | Construction and Risk Management |
| Prerequisites: ABB321 or UXH310 |
| BSB131 Equivalents: BSB123, BSD131 | Applied Business Analytics |
| |
| EFB210 Equivalents: EFX210 | Fundamentals of Finance |
| Prerequisites: 48 credit points of completed study |
| EFB226 Equivalents: EFX226 | Environmental Economics and Policy |
| |
| EFB335 Equivalents: EFX335 | Investments |
| Prerequisites: EFB201 and EFB210 |
| EFB343 Equivalents: EFX343 | Corporate Finance |
| Prerequisites: EFB210Antirequisites: EFB307 |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| MGB236 Equivalents: MGB341 | Identifying and Managing Risk |
| Prerequisites: 48 credit points of completed study |
| MXB232 Equivalents: MAB315 | Introduction to Operations Research |
| MXB100 or Senior Mathematics C or Senior Specialist Mathematics is assumed knowledge. |
| MXB332 Equivalents: MAB525 | Optimisation Modelling |
| Prerequisites: MXB232 or MAB315 |
Study Area Description
The Engineering Mathematics minor in the Bachelor of Engineering degree provides students with the option to combine their studies with introductory and intermediate studies in mathematical and statistical techniques and modelling.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MSENMNR-ENGMATH ver 2 | |||
| Select 48 credit points from the Unit Options List: | |||
| MXB101 Equivalents: MAB210 | Probability and Stochastic Modelling 1 |
| |
| MXB102 | Abstract Mathematical Reasoning |
| |
| MXB103 Equivalents: MAB220 | Introductory Computational Mathematics |
| Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB105 Equivalents: MAB121, PVB200 | Calculus and Differential Equations |
| Antirequisites: PVB201Sound achievement in Senior Mathematics C (or equivalent) or MXB100 is assumed knowledge. |
| MXB106 Equivalents: MAB112, MAB122, MAB132, PVB202 | Linear Algebra |
| |
| MXB107 | Introduction to Statistical Modelling |
| Specialist Mathematics or MXB100, or concurrently enrolled in MXB100. |
| MXB201 Equivalents: MAB312 | Advanced Linear Algebra |
| Prerequisites: MXB106 and (MXB102 or Admission to ST20)MXB105 is assumed knowledge. |
| MXB202 Equivalents: MAB311 | Advanced Calculus |
| Prerequisites: MXB105 and MXB106MXB102 is assumed knowledge. |
| MXB225 Equivalents: MAB413, MXB221 | Modelling with Differential Equations 1 |
| Prerequisites: MXB105MXB106 is assumed knowledge. |
| MXB232 Equivalents: MAB315 | Introduction to Operations Research |
| MXB100 or Senior Mathematics C or Senior Specialist Mathematics is assumed knowledge. |
| MXB241 Equivalents: MAB314 | Probability and Stochastic Modelling 2 |
| Prerequisites: MXB101 and MXB105 |
| MXB242 Equivalents: MAB414 | Regression and Design |
| Prerequisites: MXB107 |
Study Area Description
The IT Breadth minor provides an introduction to each of the major technical disciplines within information technology.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| iNENMNR-INFOTEC | |||
| Choose four units (48 credit points) from the Unit Options list: | |||
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB210 | User Experience Fundamentals |
| Prerequisites: IFB103 or INB103 or ITD103 or INB182 or EGB100 or ENB100 or EGB101 or IGB120 |
| CAB230 Equivalents: INB271 | Web Computing |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| DSB100 | Fundamentals of Data Science |
| Prerequisites: (CAB201 or ITD121) and (MZB151 or any MXB unit). CAB201 can be studied in the same teaching period as DSB100. |
| IFB240 Equivalents: CAB240, ITD240 | Cyber Security |
| |
| From 2023 CAB240 is replaced by IFB240. CAB240 will still count towards this Minor, if you have completed it previously. | |||
| CAB222 Equivalents: CAB303, INB251 | Networks |
| Prerequisites: IFB102 or ITD102 or EGB120 |
| From 2023 CAB303 is replaced by CAB222. CAB303 will still count towards this Minor, if you have completed it previously. | |||
| IFB105 Equivalents: IFB130, ITD105 | Database Management |
| For PU51 students, PUB110 is the assumed knowledge for IFB105. |
Study area description
Mechanical engineering turns energy into power and motion. Mechanical engineers design, create, improve and maintain systems and machinery that are used for private and commercial purposes. They keep pace with technology and act as an interface between technology and society, playing an essential role contributing to the sustainability of the environment and future development of industry. Mechanical engineering interlinks closely with other areas of engineering and applies knowledge of materials, energy and structures.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-MECHENG | |||
| Select four units (48 credit points) from the Unit Option list: | |||
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB210 Equivalents: ENB215 | Fundamentals of Mechanical Design |
| Prerequisites: (EGB111 or EGB125) and EGB314 |
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| EGB316 Equivalents: ENB316 | Design of Machine Elements |
| Prerequisites: EGB314 and (EGB210 or ENB215) or Admission to EN55 |
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| EGB322 Equivalents: ENB222 | Thermodynamics |
| |
| EGB323 Equivalents: ENB221 | Fluid Mechanics |
| Prerequisites: (MZB127 or MZB126) AND ( EGB102 or EGD102 or EGB113 or EGD113 or PVB101 or ENB130) |
| EGB414 | Advanced Materials |
| Prerequisites: EGB214 |
| EGB415 Equivalents: ENB315 | Motor Racing Vehicle Design |
| Prerequisites: EGB316 Or Admission to (EN50 or EN55) |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| EGB423 Equivalents: ENB423 | Heating, Ventilation and Air Conditioning |
| Prerequisites: EGB323 Or Admission to (EN50 or EN55) |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
| EGH420 Equivalents: ENB317 | Mechanical Systems Design |
| Prerequisites: (EGB316 or ENB316) or (ENN516 and Admission to EN55) or Admission to EN60 |
| EGH421 Equivalents: ENB313 | Vibration and Control |
| Prerequisites: (EGB321 or ENB312) or Admission to (EN55 or EN60)Antirequisites: EGB345,EGH462 |
| EGH422 Equivalents: ENB421 | Heat Transfer |
| Prerequisites: (EGB322 or ENB222) or Admission to (EN50, EN55 or EN60) |
| EGH423 Equivalents: ENB321 | Fluid Dynamics |
| Prerequisites: (EGB322 or ENB222 or EGB323 or ENB221) or Admission to (EN55 or EN60) |
| The following unit options have been discontinued or removed from this minor but will still count towards the minor: | |||
| EGB434 Tribology | |||
| EGH463 Equivalents: ENB433, EGH360 | Process Design |
| |
Study Area Description
Medical engineering involves working with clinicians and medical scientists to design, manufacture and maintain medical equipment to improve health care and medical services. The discipline applies engineering and scientific methods to find solutions to problems in medicine and the life sciences. It may involve developing medical products and different types of equipment used to monitor and treat patients or designing and improving equipment for people with disabilities. Medical engineering integrates engineering principles with human physiology to design, manufacture, install, monitor and maintain medical and surgical equipment.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-MEDICAL ver 2 | |||
| LSB142 Equivalents: LQB185, LQD185, LSB182, LSD142 | Human Anatomy and Physiology |
| |
| Plus three units (36 credit points) from the Unit Options list: | |||
| EGB319 Equivalents: ENB319 | Medical Device Design |
| Prerequisites: EGB210 or EGB220 or ENB215 or ENB229 |
| EGH418 Equivalents: ENB318 | Biomechanics |
| Prerequisites: EGB211 or ENB211LSB131 and LSB231 are assumed knowledge |
| EGH424 Equivalents: ENB322 | Biofluids |
| Prerequisites: EGB323 or ENB221LSB131 and LSB231 are assumed knowledge |
| EGH438 Equivalents: ENB338 | Biomaterials |
| Prerequisites: EGB314LSB131, LSB231 and EGB214 are assumed knowledge |
| EGH435 Equivalents: ENB335 | Modelling and Simulation for Medical Engineers |
| Prerequisites: EGH414LSB131, LSB231 and EGH418 are assumed knowledge |
Study Area Description
The Extension minor broadens the knowledge & skills of a Mechatronics graduate to comprehensively span all disciplines in Mechatronic concepts. It provides the opportunity to broaden knowledge in a wider area of disciplines enabling a graduate to have expertise in a number of fields of research within Mechatronics.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-MECHATN | |||
| Choose two units (24 credit points) from either the Mechatronics Advanced Unit Options list: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| EGH422 Equivalents: ENB421 | Heat Transfer |
| Prerequisites: (EGB322 or ENB222) or Admission to (EN50, EN55 or EN60) |
| EGH423 Equivalents: ENB321 | Fluid Dynamics |
| Prerequisites: (EGB322 or ENB222 or EGB323 or ENB221) or Admission to (EN55 or EN60) |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| EGH455 | Advanced Systems Design |
| Prerequisites: CAB403 or Admission to EN60 |
| EGH456 Equivalents: ENB350 | Embedded Systems |
| Prerequisites: CAB403 or Admission to (EN50, EN55 or EN60) |
| OR | |||
| The Mechatronics Intermediate Unit Option list: | |||
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| EGB322 Equivalents: ENB222 | Thermodynamics |
| |
| EGB323 Equivalents: ENB221 | Fluid Mechanics |
| Prerequisites: (MZB127 or MZB126) AND ( EGB102 or EGD102 or EGB113 or EGD113 or PVB101 or ENB130) |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| Plus choose two units (24 credit points) from the Mechatronics Advanced Unit Options list: | |||
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| EGH422 Equivalents: ENB421 | Heat Transfer |
| Prerequisites: (EGB322 or ENB222) or Admission to (EN50, EN55 or EN60) |
| EGH423 Equivalents: ENB321 | Fluid Dynamics |
| Prerequisites: (EGB322 or ENB222 or EGB323 or ENB221) or Admission to (EN55 or EN60) |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH449 | Advanced Electronics |
| Prerequisites: EGB348 or Admission to (EN50, EN55 or EN60)Sound knowledge of electrical circuit theory. |
| EGH455 | Advanced Systems Design |
| Prerequisites: CAB403 or Admission to EN60 |
| EGH456 Equivalents: ENB350 | Embedded Systems |
| Prerequisites: CAB403 or Admission to (EN50, EN55 or EN60) |
Study Area Description
This minor is designed for engineering students who would like to advance their knowledge in physics. It covers the core theoretical knowledge of physical phenomena from a different and complementary perspective to that which would normally be experienced by an engineering student. It is assumed that the required mathematical knowledge would be gained within engineering units.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| PVB105 Equivalents: PVB101 | Foundations of Physics |
| |
| PVB205 | Classical Mechanics |
| Prerequisites: (MXB106 OR PVB202 OR MZB127) and (MXB105 OR PVB200 OR MZB125 OR MXB161) and (PVB105 or PVB102) |
| PVB207 Equivalents: PVB302 | Quantum Physics |
| Prerequisites: (PVB105 OR PVB102 OR PVB101) AND (((MXB105 or PVB200 OR MZB125 OR MXB161) AND (MXB106 or PVB202 OR MZB127)) OR ED59) |
| Complete 12 credit points from the Physics Unit Options List | |||
| PVB206 Equivalents: PVB301 | Thermodynamics and Statistical Mechanics |
| Prerequisites: (MXB105 or PVB200 OR MZB125 OR MXB161) and (MXB106 or PVB202 or MZB127) and (PVB105 or PVB102 or PVB101 or PVB103 or EGB113 or EGB102) |
| PVB303 | Nuclear and Particle Physics |
| Prerequisites: PVB302 |
| PVB305 Equivalents: PVB204 | Electromagnetism and Optics |
| Prerequisites: PVB205 OR ((PVB202 or MXB106) AND Admission to ST20)) OR ((PVB202 OR MXB106) AND (PVB200 OR MXB105)) |
| PVB203 | Experimental Physics |
| Prerequisites: (MXB105 or PVB200 or MXB106 or PVB202 or MZB127 or MZB125 or admission in ED59) and (PVB105 or PVB103 or PVB101 or PVB102 or EGB113 or EGB102) |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| STENMNR-PHYSICS | |||
| PVB102 | Physics of the Very Small |
| Maths B or equivalent is assumed knowledge. |
| PVB204 | Electromagnetism |
| Prerequisites: ((PVB202 or PVB200 or MXB106) and (MXB100 or MZB125)) or (PVB202 and admission to ST20) |
| PVB302 | Classical and Quantum Physics |
| Prerequisites: PVB200 or PVB202 or PVB204 |
| Plus one unit (12 credit points) from the Unit Options list: | |||
| PVB301 | Materials and Thermal Physics |
| Prerequisites: PVB200 or MXB105 or PVB202 |
| PVB303 | Nuclear and Particle Physics |
| Prerequisites: PVB302 |
Study Area Description
The Power Engineering Minor develops the knowledge & skills required for non-power engineering majors to understand the basics of power industry including generation, transmission, distribution. It develops an understanding of these introductory concepts leading to more advanced topics in the analysis and understanding of power engineering.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-POWRENG (v2) | |||
| Select 48 credit points from the Power Engineering unit options list | |||
| EGB241 | Electromagnetics and Machines |
| Prerequisites: (EGB120 or EGD120) AND (MZB126 or EGD126 or MZB127 or (MXB105 AND MXB107)) and MZB221. MZB221 can be enrolled in the same teaching period as EGB241.Basic knowledge of electrical circuit theory and calculus is assumed knowledge |
| EGB341 | Energy Supply and Delivery |
| Prerequisites: EGB241 |
| EGH441 | Power System Modelling |
| Prerequisites: EGB341 or Admission to (EN50 or EN55 or EN60 or EN53 or EN73 or EN76)Basic knowledge of electric supply and energy sources and its impact on delivery systems |
| EGH448 Equivalents: ENB455 | Power Electronics |
| Prerequisites: EGB348 or Admission to (EN50, or EN55 or EN60 or EN53 or EN73 or EN76)Sound knowledge of electrical circuit theory |
| EGH454 | Power Systems Management with Renewable & Storage Resources |
| Prerequisites: EGB341 or Admission to (EN50, EN55 or EN60)Antirequisites: ENB454 |
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-RENPOWR v1 | |||
| EGB351 | Renewable Electrical Energy Sources |
| Prerequisites: EGB120 |
| EGH451 | Distributed Renewable Electrical Energy Systems |
| Prerequisites: (EGB351 and EGB120) or Admission to (EN53 or EN73 or EN76) |
| Select either EGB120 OR EGH452. . If EGB120 is core in your Major, you must select EGH452. If EGB120 is not core in your Major, you must select EGB120 | |||
| EGB120 Equivalents: ENB120 | Foundations of Electrical Engineering |
| Antirequisites: EGD120Grade of at least Sound Achievement in Senior Mathematics C (or equivalent) or MZB125, and Fundamental knowledge of simple DC circuits is assumed knowledge. |
| OR | |||
| EGH452 | Design for Renewable Electrical Energy Systems |
| Prerequisites: ((EGB240 or EGB220) and EGB351)) or Admission to (EN53 or EN73 or EN76) |
| Select one unit from Renewable Power Options List | |||
| EGB101 Equivalents: EGD101 | Engineering Design and Professional Practice |
| |
| EGB240 | Electronic Design |
| Prerequisites: (EGB101 or EGB111) and (EGB120 or EGD120 or ENB120) |
| EGB241 | Electromagnetics and Machines |
| Prerequisites: (EGB120 or EGD120) AND (MZB126 or EGD126 or MZB127 or (MXB105 AND MXB107)) and MZB221. MZB221 can be enrolled in the same teaching period as EGB241.Basic knowledge of electrical circuit theory and calculus is assumed knowledge |
| EGB341 | Energy Supply and Delivery |
| Prerequisites: EGB241 |
| EGB345 | Control and Dynamic Systems |
| Prerequisites: EGB242Antirequisites: EGH421 |
| EGH441 | Power System Modelling |
| Prerequisites: EGB341 or Admission to (EN50 or EN55 or EN60 or EN53 or EN73 or EN76)Basic knowledge of electric supply and energy sources and its impact on delivery systems |
| EGH454 | Power Systems Management with Renewable & Storage Resources |
| Prerequisites: EGB341 or Admission to (EN50, EN55 or EN60)Antirequisites: ENB454 |
Study Area Description
The Robotics minor develops the knowledge & skills required for an introduction to robotics and machine learning concepts. It develops an understanding of robotics, and requirements for intelligent behaviour of a robot.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ROBOTIC | |||
| EGB339 Equivalents: ENB339 | Introduction to Robotics |
| Prerequisites: (MZB127 or EGD126 or MXB103) and (EGB103 or IFB104)MZB126 is assumed knowledge |
| EGB439 | Advanced Robotics |
| Prerequisites: EGB339 Or Admission to (EN50 or EN55 or EN60)Robotics and Matlab programming is assumed knowledge |
| Choose two units (24 credit points) from the option list: | |||
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB320 | Artificial Intelligence |
| Prerequisites: (INB270 or CAB201 or ITD121 or CAB202) and (MZB151 or ENB246 or MZB126 or EGD126 or MZB127 or MXB103 or MXB100) |
| CAB420 | Machine Learning |
| Prerequisites: (CAB201 or CAB202 or ITD121 or IFN501 or IFN556 or (Admission to EN50 or EN55 or EN52 or EN56 or EN62 or EN72)) or (192cps in SV03 or IV04 or MV05 or EV08) or (Admission to IV53 or IV54 or IV55 or IV56 or IV58). |
Study Area Description
The Software Engineering minor is a collection of intermediate to advanced software engineering units.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| INENMNR-SOFTENG | |||
| Choose four units (48 credit points) from the option list: | |||
| CAB201 Equivalents: INB270, IND270 | Programming Principles |
| Prerequisites: IFB104 or ITD104 or MZB126 or MZB127 or EGD126 or ENB246 or MXB103 or INB104 or MAB220 or EGB103 or EGD103Antirequisites: ITD121 |
| CAB202 Equivalents: ENB244 | Microprocessors and Digital Systems |
| Prerequisites: ((IFB104 or ITD104) and (IFB102 or ITD102)) or (EGB103 or EGD103 or MZB126 or MZB127 or EGD126 or (MXB105 AND MXB107)) |
| CAB203 Equivalents: INB250 | Discrete Structures |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| CAB230 Equivalents: INB271 | Web Computing |
| Prerequisites: IFB104 or ITD104 or MZB126 or EGD126 or EGB103 or EGD103 |
| IFB240 Equivalents: CAB240, ITD240 | Cyber Security |
| |
| From 2023 CAB240 is replaced by IFB240. CAB240 will still count towards this Minor, if you have completed it previously. | |||
| CAB301 Equivalents: INB371 | Algorithms and Complexity |
| Prerequisites: (CAB201 or ITD121) |
| CAB302 Equivalents: INB370 | Software Development |
| Prerequisites: CAB201 or INB270 or ITD121 |
| CAB320 | Artificial Intelligence |
| Prerequisites: (INB270 or CAB201 or ITD121 or CAB202) and (MZB151 or ENB246 or MZB126 or EGD126 or MZB127 or MXB103 or MXB100) |
| CAB401 Equivalents: INB375 | High Performance and Parallel Computing |
| Prerequisites: IFN584 or (IFN563 and IFN564) or (IFQ563 and IFQ564) or CAB301 or IFN505 |
| CAB402 | Programming Paradigms |
| Prerequisites: IFN584 or ((CAB201 or ITD121) and (CAB203 or CAB220 or DSB100 or MZB127)) or (IFN563 and IFN564) or (IFQ563 and IFQ564) |
| CAB403 Equivalents: INB365, ITB706, ITB745 | Systems Programming |
| Prerequisites: (CAB201 or MZB126 or EGB103 or EGD103 or ITD121) and CAB202Antirequisites: INN365 |
| CAB420 | Machine Learning |
| Prerequisites: (CAB201 or CAB202 or ITD121 or IFN501 or IFN556 or (Admission to EN50 or EN55 or EN52 or EN56 or EN62 or EN72)) or (192cps in SV03 or IV04 or MV05 or EV08) or (Admission to IV53 or IV54 or IV55 or IV56 or IV58). |
| CAB432 Equivalents: INB356 | Cloud Computing |
| Prerequisites: CAB301 or CAB302 or INB370 or INB371 or IFN666 or IFQ666 or (IFN582 and IFN584) or (IFQ582 and IFQ584)You have the option to use either Python or Javascript for assessments. It's expected that you have good programming skills in one of these languages, or have good skills in another language and the ability to learn Python or Javascript on your own. |
| IAB330 | Applied Internet of Things |
| Prerequisites: IAB230 or CAB201 or ITD121 |
| IFB105 Equivalents: IFB130, ITD105 | Database Management |
| For PU51 students, PUB110 is the assumed knowledge for IFB105. |
Study area description
The Biotechnology Minor develops the knowledge & skills required for non-Biological Sciences Major students to gain a broad understanding from introductory concepts in biology to advanced applications in biotechnology that are relevant to both research and industry. The biotechnology industry relies on multiple skills and disciplines to successfully manufacture and use biological products. For example, engineers are necessary for the scale-up and implementation of bioprocesses such as fermentation for brewing, biofuels and chemical manufacture.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| SCBXMNR-BIOTECH | |||
| BVB317 | Principles of Genomics and Biotechnology |
| Prerequisites: BVB101 or (BVB201 and admission to ST20) |
| BVB328 | Applications in Biotechnology |
| Prerequisites: BVB317 or BVB201 |
| PLUS Select 2 units (24 credit points) from: | |||
| BVB101 Equivalents: BZB210 | Foundations of Biology |
| |
| BVB201 | Biological Processes |
| Prerequisites: BVB101 or BZB210 or ((BVB203 or BVB306) and admission to ST20) |
| BVB305 | Microbiology and the Environment |
| Prerequisites: BVB201 |
| (Note: Only select BVB305 if you have passed BVB101 outside this minor.) | |||
Study Area Description
The Engineering Construction Minor will introduce the processes of bidding and managing civil engineering construction projects.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-CONSTRU ver 2 | |||
| Select 4 units (48 credit points) from the Unit Options list: | |||
| ABB222 Equivalents: UXH315 | Construction Estimating |
| Prerequisites: ABB122 or UXB113 or UDB113 or EGB273Antirequisites: UDB213, UXB214 |
| ABB224 Equivalents: UXH312 | Construction Legislation |
| Prerequisites: Completion of 96cp or EGB273 |
| EGB123 | Civil Engineering Systems |
| |
| EGB273 Equivalents: ENB275 | Principles of Construction |
| Prerequisites: EGB123 OR EGD123 (EGB123 can be studied in the same teaching period as EGB273) |
| EGB382 Equivalents: ENB381 | Construction Methodologies |
| Prerequisites: EGB273 |
| EGB387 Equivalents: ENB472 | Engineering Economy and Planning |
| Prerequisites: EGB273 |
| EGB475 Equivalents: ENB475 | Advanced Structural Analysis |
| Prerequisites: EGB275 or Admission to EN55 |
| EGB482 Equivalents: ENB277 | Contracting and Construction Regulations |
| Prerequisites: EGB273 or Admission to (EN55 or EN60) |
| UXH311 Equivalents: UDB312 | Contract Administration |
| Prerequisites: LWS012 or UDB102 or EN40MJR-CVCOENG or EN01SMJ-CONSTRU or EN01SMJ-STRUENG |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| EGB386 Equivalents: ENB384 | Design of Masonry Structures |
| Prerequisites: EGB275 |
Study Area Description
The Engineering Structures Minor will introduce the mechanics, analysis and design of civil engineering structures.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-STRUENG ver 2 | |||
| Choose four units (48 credit points) from the Unit Options list: | |||
| EGB121 Equivalents: ENB110 | Engineering Mechanics |
| Prerequisites: EGB102 or EGB113 or EGD113 or PVB101. EGB102 can be enrolled as a concurrent prerequisite to EGB121.Antirequisites: EGD121 |
| EGB275 | Structural Mechanics |
| Prerequisites: (EGB121 OR EGD121 OR ENB110) AND (MZB127 OR MZB126 OR EGD126) OR (MXB105 and MXB107)) |
| EGB376 Equivalents: ENB375 | Steel Design |
| Prerequisites: (EGB275 OR ENB270) AND (EGB270 OR EGD270 OR ENB273) |
| EGB386 Equivalents: ENB384 | Design of Masonry Structures |
| Prerequisites: EGB275 |
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| EGH475 Equivalents: ENB471 | Advanced Concrete Structures |
| Prerequisites: EGB375 or ENB276 or Admission to EN55EGB121 is assumed knowledge |
| EGB476 Equivalents: ENB373 | Advanced Steel Design |
| Prerequisites: EGB376 or Admission to EN55 |
| EGB482 Equivalents: ENB277 | Contracting and Construction Regulations |
| Prerequisites: EGB273 or Admission to (EN55 or EN60) |
| EGB485 Equivalents: ENB474 | Finite Element Analysis |
| Prerequisites: EGB475 or Admission to (EN50 or EN55 or EN60) |
| The following units have been removed from the unit options from 2024 | |||
| EGH475 Advanced Concrete Structures | |||
| EGB481 Infrastructure Asset Management | |||
| EGB473 Composite Structures | |||
Study area description
It is now very well accepted that the three pillars of scientific discovery are theory, experiment and simulation, and therefore a solid foundation in computational science is an essential skill for students studying across the STEM fields. The minor provides you with knowledge of modelling, simulation and visualisation as used in a range of scientific application areas.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| MSBXMNR-COMPSSC | |||
| MXB261 Equivalents: INB360, MAB480 | Modelling and Simulation Science |
| Programming experience; sound achievement in Senior Mathematics B is assumed knowledge. |
| MXB262 Equivalents: MAB481 | Visualising Data |
| Prerequisites: SEB113 or MXB107 or MXB161 or MXB261 or MZB126Programming skills are assumed knowledge |
| Select two units (24 credit points) from the selective list: | |||
| MXB161 | Computational Explorations |
| Prerequisites: Admission to (MS01 or MV05 or MV06 or IX30 or SE20 or SE30 or SE40 or SE70 or ST20) or 48 credit points of study in current course |
| MXB361 | Aspects of Computational Science |
| Prerequisites: MZB127 or MXB161 or MXB261Sound programming skills; MXB100 or Specialist Mathematics is assumed knowledge. |
| MXB362 Equivalents: MAB681 | Advanced Visualisation and Data Science |
| Prerequisites: MXB262 |
| NOTE: From 2019, MXB161 has been moved to the option list. | |||
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| SCBXMNR-ENVMGMT ver 2 | |||
| Select four units (48 credit points) from the option list: | |||
| CLB221 Equivalents: PQB360 | Introduction to Climate Change |
| |
| CLB223 Equivalents: UDB181, EVB203 | Geospatial Information Systems |
| Prerequisites: ERB101 or ERB110 or ERB102 or ERB111 or EVB102 or admission to ST20 |
| CLB331 Equivalents: ERB201 | Natural Hazards | Prerequisites: Completion of 96 cp of study | |
| EFB226 Equivalents: EFX226 | Environmental Economics and Policy |
| |
| EGB274 Equivalents: ENB274 | Environmentally Sustainable Design |
| Prerequisites: EGB124 or EGB101 or EGB111 or UXB230 or ABB253 or ERB101 or EVB102 or completion of 144 CPs in AB01 or AV01 or PV21 or ID52 |
| ERB110 Equivalents: NQB201, ERB101 | Earth's Dynamic Systems |
| |
| EVB206 Equivalents: EVB302 | Environmental Pollution |
| Prerequisites: BVB202 or MZB126 or MZB127 or (MZB103 and completion of 72 cp of study) |
| EVB310 Equivalents: ERB310 | Groundwater Systems |
| Prerequisites: Completion of 96cp of study |
| JSB255 | Environmental Justice and Climate Change |
| Prerequisites: 96cp of completed studies |
| The following unit options have been discontinued, but will still count towards this minor: | |||
| ERB201 | Destructive Earth: Natural Hazards |
| |
| ERB101 Equivalents: NQB201 | Earth Systems |
| |
| ERB310 Equivalents: NQB614 | Groundwater Systems |
| Prerequisites: ERB101 or EVB312 |
| EVB203 Equivalents: UDB181 | Geospatial Information Science |
| Prerequisites: Completion of 48 credit points, or enrollment in ST20 |
| EVB302 | Environmental Pollution |
| Prerequisites: BVB202 or MZB126 |
| PQB360 | Introduction to Climate Change |
| |
| UXH331 Equivalents: UDB370 | Environmental Planning |
| Prerequisites: (UXB230 or UDB265) or (ENB274 or EGB274 or DAB202 or DLB202 or DLB600 or DAB525) |
Please refer to the **IMPORTANT MESSAGE** Students who commenced course prior to 2024 - Bachelor of Science unit changes above.
Nanotechnology Minor - ST01MNR-NANOTEC
Study Area Description
The Nanotechnology minor is designed for physics, chemistry, mechanical engineering and process engineering students with an interest in nanoscience and its applications in nanotechnology. Since nanotechnology is a multi-disciplinary field of research, this minor offers two units dedicated to broadening and/or deepening your skills in physics, engineering and chemistry. You will also undertake two units specifically focused on nanotechnology: one unit that will focus on the foundations of the characterisation and fabrication of nano-structured materials, and one research based unit where you will have the opportunity to advance your theoretical knowledge and to pursue research projects in nanotechnology.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| ST01MNR-NANOTEC | |||
| PVB321 | Introduction to Experimental Nanotechnology |
| |
| [Note: PVB321 is available in odd years] | |||
| PVB322 | Advanced Nanotechnology |
| |
| [Note: PVB322 is available in even years] | |||
| And select 24cp from: | |||
| CVB101 Equivalents: EGB161 | General Chemistry |
| Antirequisites: CZB190 |
| CVB102 | Chemical Structure and Reactivity |
| Antirequisites: CZB190, CZB191, CVB103 |
| CVB203 | Physical Chemistry |
| Prerequisites: (CVB101 and CVB102) or (CVB102 and admission to ST20) or (CVB101 and admission to ED59) or CZB190 or CZB191 |
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| EGB348 | Electronics |
| Prerequisites: EGB242. EGB242 can be enrolled in the same teaching period as EGB348. |
| PVB102 | Physics of the Very Small |
| Maths B or equivalent is assumed knowledge. |
| PVB200 | Computational and Mathematical Physics |
| Prerequisites: MXB100 or MZB125Antirequisites: MXB105Math C is assumed knowledge |
| PVB203 | Experimental Physics |
| Prerequisites: (MXB105 or PVB200 or MXB106 or PVB202 or MZB127 or MZB125 or admission in ED59) and (PVB105 or PVB103 or PVB101 or PVB102 or EGB113 or EGB102) |
| PVB301 | Materials and Thermal Physics |
| Prerequisites: PVB200 or MXB105 or PVB202 |
|
EN01 university wide option strand includes: · University wide minor options · Language minors options You may select up to 48cp (4 units) of University wide minor options or language minors options.
Details about University Wide Minor options can be accessed from: http://www.student.qut.edu.au/studying/units/university-wide-minors Further information about the Language Minor is located at: http://www.qut.edu.au/study/study-areas/language-courses |
| Language Minor Options | |||
|---|---|---|---|
| Mandarin Language (BSBXMNR-MNDARIN) | |||
| Italian (BSGUMNR-ITALIAN) | |||
| Japanese (BSGUMNR-JAPAN) | |||
| Spanish (BSGUMNR-SPANISH) | |||
| French (BSUQMNR-FRENCH) | |||
| German (BSUQMNR-GERMAN) | |||
| Indonesian (BSUQMNR-INDO) | |||
| Japanese (BSUQMNR-JAPAN) | |||
| Korean (BSUQMNR-KOREAN) | |||
| Russian (BSUQMNR-RUSSIAN) | |||
| Spanish (BSUQMNR-SPANISH) |
The following study areas have been discontinued or its version has been discontinued. Students who have already commenced one of these minors will be permitted to complete it.
Study area description
The Engineering Communication Minor develops communication knowledge & skills essential for work in a professional workplace.
The Engineering Communication Minor forms part of Complementary Studies component of EN01 and is only be available to those students that have articulated from EN02 into EN01 and who, during the course of their EN02 studies, completed the two communication units QCD110 Professional Communication 1 and QCD210 Professional Communication 2.
Students who complete EN02 will be placed in the communication minor and will be required to choose an additional minor as required by the course.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ENGCOMS | |||
| QCD110 | Academic Communication 1 |
| Antirequisites: QCD111, QCD120 |
| QCD210 | Academic Communication 2 |
| Antirequisites: QCD211 |
| QCS300 | Introduction to the Language of Research |
| |
| Plus 1 unit (12 cps) to be selected from the following options: | |||
| CWB111 Equivalents: KWB114 | Scientific and Technical Writing |
| SA in Senior English or equivalent is assumed knowledge. |
| KWB213 Equivalents: KWB106 | Corporate Writing and Editing |
| |
Study Area Description
The Engineering Management Minor develops the knowledge & skills required for all science and engineering majors to understand the basics of engineering management including considerations like safety, environment, economics and work flow. It develops an understanding of these introductory concepts and the use of these concepts in the analysis and understanding of the engineering industry and engineering systems.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-ENGMGMT ver 2 | |||
| EGB432 Equivalents: ENB432 | Asset Management and Maintenance |
| Prerequisites: 192 credit points of completed study |
| Plus one unit (12 credit points) from the Unit Options 1 List: | |||
| EFB106 | Cost-Benefit Analysis for Project Appraisal |
| |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| Plus two units (24 credit points) from the Unit Options 2 List: | |||
| EFB106 | Cost-Benefit Analysis for Project Appraisal |
| |
| EGB362 Equivalents: ENB260, EGB260 | Operations Management and Process Economics |
| Prerequisites: EGB261 |
| EGB422 Equivalents: ENB422 | Energy Management and Sustainability |
| Prerequisites: EGB322 or Admission to (EN50 or EN55 or EN60) |
| MGB133 Equivalents: MGB309, MGX309 | Managing Strategy |
| |
| MGB234 Equivalents: MGB226, MGX226 | Managing Knowledge, Innovation, and Creativity |
| Prerequisites: 96 credit points of completed studiesAntirequisites: MGB355 |
| MGB236 Equivalents: MGB341 | Identifying and Managing Risk |
| Prerequisites: 48 credit points of completed study |
| MXB107 | Introduction to Statistical Modelling |
| Specialist Mathematics or MXB100, or concurrently enrolled in MXB100. |
| MXB242 Equivalents: MAB414 | Regression and Design |
| Prerequisites: MXB107 |
| The following unit options have been discontinued, but will still count towards this minor: | |||
| Unit Options 1: | |||
| EGB336 Equivalents: ENB336 | Lean Manufacturing Management |
| |
| Unit Options 2: | |||
| BSB115 Equivalents: BSD115, BSX115 | Management |
| |
| EGB363 Equivalents: ENB363 | Safety and Environmental Management |
| |
| EGB336 Equivalents: ENB336 | Lean Manufacturing Management |
| |
| MGB226 Equivalents: MGX226, MGB234 | Innovation, Knowledge and Creativity |
| Prerequisites: BSB105 or BSB115 or MGB200 or Completion of 96 Credit Points of StudyAntirequisites: MGB355 |
| MGB341 | Managing Risk |
| Prerequisites: MGB200 or MGB226 |
Study Area Description
The Manufacturing Minor develops the knowledge & skills required for application of engineering principles to the manufacturing discipline. It develops an understanding of manufacturing and automation concepts relevant to modern manufacturing.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-MANUFAC | |||
| EGB435 | Advanced Manufacturing and Industrial Automation |
| Prerequisites: EGB214 Or Admission to (EN50 or EN55) |
| Plus three units (36 credit points) from the Unit Options list: | |||
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB414 | Advanced Materials |
| Prerequisites: EGB214 |
| EGB436 | Industrial Automation |
| Prerequisites: EGB214 Or Admission to (EN50 or EN55) |
| EGH438 Equivalents: ENB338 | Biomaterials |
| Prerequisites: EGB314LSB131, LSB231 and EGB214 are assumed knowledge |
| LSB142 Equivalents: LQB185, LQD185, LSB182, LSD142 | Human Anatomy and Physiology |
| |
| The following unit options have been discontinued but will still count towards this minor: | |||
| EGB315 Materials Degradation (disc 31/12/2021) | |||
Study Area Description
The Materials & Design Minor develops the knowledge & skills required for mechanical engineering strength of material's and introduction to mechanical design. It develops an understanding of strengths of materials concepts and the use of these concepts in the analysis and understanding of mechanical systems.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-MATLDES | |||
| EGB210 Equivalents: ENB215 | Fundamentals of Mechanical Design |
| Prerequisites: (EGB111 or EGB125) and EGB314 |
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| Plus one unit (12 credit points) from the Unit Options list: | |||
| EGB316 Equivalents: ENB316 | Design of Machine Elements |
| Prerequisites: EGB314 and (EGB210 or ENB215) or Admission to EN55 |
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
Study Area Description
The Dynamics Minor develops the knowledge & skills required for mechanical engineering strength of materials and introduction to mechanical design. It develops an understanding of strengths of materials concepts and the use of these concepts in the analysis and understanding of mechanical systems.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| EN01MNR-DYNAMIC v2 | |||
| (previously known as Dynamics Minor) | |||
| Select 4 units (48 credit points) from the Unit Option list: | |||
| EGB210 Equivalents: ENB215 | Fundamentals of Mechanical Design |
| Prerequisites: (EGB111 or EGB125) and EGB314 |
| EGB211 Equivalents: ENB211 | Dynamics |
| Prerequisites: (EGB113 or EGB102 or EGD113 or ENB130 or PCB136 or PCB150 or PVB101) and (MZB126 or EGD126 or MZB127 or MAB126 or MAB180 or MAB131 or MXB105) |
| EGB214 Equivalents: ENB231, ENB331 | Materials and Manufacturing |
| Prerequisites: EGB121 or EGD121 or ENB110 |
| EGB314 Equivalents: ENB212 | Solid Mechanics |
| Prerequisites: (EGB121 or EGD121 or ENB110) and (MZB125 or MXB161 or EGD125 or equivalencies) |
| EGB321 Equivalents: ENB312 | Dynamics of Machines |
| Prerequisites: EGB211 or ENB211 |
| EGH413 | Advanced Dynamics |
| Prerequisites: EGB321 or Admission to (EN50 or EN55) |
| EGH414 Equivalents: ENB311 | Stress Analysis and Numerical Modelling |
| Prerequisites: (EGB314 or ENB212) or Admission to (EN55 or EN60) |
Study area description
The Minor in Project Collaboration is designed to provide you with appropriate knowledge and skills for your involvement in delivering projects in professional organisations in the public and private sectors. It addresses the main concepts and methodologies of project management. The course will aim to produce graduates who are capable of supporting project managers to successfully managing projects through the management of constraints in time, cost and quality, as well as social, political and environmental challenges.
The Minor in Project Collaboration offers you both the theoretical understanding and practical applications of professional project development and management practices, with a focus on built environment and engineering projects.
| Code | Title | Offered In | Requisites |
|---|---|---|---|
| BEBXMNR-PROJCOL | |||
| Choose four units (48 credit points) from the Unit Options list: | |||
| BSB250 | Business Citizenship |
| Prerequisites: 72 credit points of completed studiesAntirequisites: BSB151 |
| MGB130 Equivalents: MGB200, MGX200 | Managing People |
| |
| MGB237 Equivalents: MGX335 | Managing Projects for Performance |
| Prerequisites: 48 credit points of completed studiesAntirequisites: MGB335 KXB202 |
| ABB123 Equivalents: UXB100 | Sustainability and Design Thinking for the Construction Industry |
| |
| ABB206 Equivalents: UXB135 | Negotiation and Conflict Resolution |
| |
| ABB254 Equivalents: UXB231 | Stakeholder Engagement |
| |
| ABB224 Equivalents: UXH312 | Construction Legislation |
| Prerequisites: Completion of 96cp or EGB273 |
| *Please note from BEB110, BEB111, BEB112, BEB113, BEB114 will no longer be offered. | |||
| *Note: UXB100, UXB135, UXB231, UXB233, UXH312, UXH331, UXH410 and UXH411 are permitted to count towards this minor if completed in 2023 or earlier. | |||