Major (2020)
Information on this page, including unit offerings, is from the 2020 academic year.
Engineering Technology (BSc)
- B1317; B1317ABACHELOR OF SCIENCE
- Course Outline
- Course Structure
- Fees
- Course Plans
Title | Engineering Technology (BSc) |
Course Code | B1317; B1317A |
Study Level | Bachelor (Undergraduate) |
Organisational Unit | Engineering and Energy |
Academic Contacts | Academic Chair: Dr GM Shafiullah | Email: GM.Shafiullah@murdoch.edu.au | Tel: 9360 6417 |
Qualification | Bachelor of Science (BSc) in Engineering Technology |
Duration | 3 years full-time or part-time equivalent |
Availability | Murdoch campus (internal) |
Description | The approach of the technologist is, wherever possible, to use and adapt 'off the shelf' building blocks and components to create and/or modify the required software and/or hardware. In this degree students are free to choose from a range of units; however, there are four key areas of study: Industrial Computer Systems: concerned with the specification, design, implementation and commissioning of industrial control systems. It is a combination of both computer hardware and software to meet the requirements of the industrial measurement and control application. Instrumentation and Control: concerned with instrumentation installation, specification, systems monitoring and operational control of a wide range of manufacturing and process oriented industries. Electrical Power: associated with power system elements including power generators, transmission and distribution system components as well as power system analysis, operation and control. Renewable Energy Systems: concerned with the study and use of renewable energy technologies and energy sources with an emphasis on electrical generation. Murdoch's Bachelor of Science is a flexible degree which gives you the opportunity to build deep understanding and practical experience as well as to supplement your studies by engaging with industry and the community on relevant problems. You can even undertake studies through another discipline to broaden your understanding of the way in which science operates in relation to social, business, health and policy environments. |
Admission Requirements: Onshore course offerings | As per normal undergraduate admission requirements. It is recommended that students have completed the equivalent of WACE Mathematics 3C/3D, Mathematics: Specialist 3C/3D and WACE Physics 3A/3B. Students who do not have the necessary Mathematical and Physics prerequisite knowledge may take an extra semester to complete their studies. Equivalent of an Academic IELTS overall score of 6.0 with no band less than 6.0. |
Major Learning Outcomes | KNOWLEDGE The Bachelor of Technology program aims to provide graduates with * the necessary knowledge to approach with confidence any task within their field of technology practice. * the necessary skills to apply with confidence their knowledge to solve problems within their field of technology practice. The knowledge that will enable a student to understand advanced concepts in engineering technology include the following material from mathematics, science and engineering: * Mathematics - complex numbers and algebra; calculus and Laplace transforms for system dynamics; Fourier analysis for power quality; matrix methods for linear distribution networks; mathematical modelling * Physics - concepts of charge, current, potential difference, voltage, energy, power; electric and magnetic fields; force and torque; power and energy balance; thermodynamics * Circuits - circuit laws (KVL and KCL); superposition; equivalent circuits, including Thevenin and Norton equivalents; impedance; phasor analysis; transfer function; filters * Computer programming - writing programs within a high level applications package, such as MATLAB. The purpose of programming is not only to learn how to write code to perform a given computational task, but also to appreciate the limitations of commercial application packages, such as a power systems simulator. SKILLS The skills that will prepare a student to handle advanced problems in engineering technology include: * applying knowledge of science, mathematics and engineering principles * problem identification and formulation, and solution by the effective application of current technology |
Course Learning Outcomes | KNOWLEDGE CLO 1 - Demonstrate a clear understanding of the role of science in society CLO 2 - Demonstrate a broad and coherent knowledge and understanding of the underlying principles and core concepts of at least one scientific discipline, including: a) An understanding of the scientific method and how it is applied b) A systematic approach to problem solving using appropriate analytical and technical methods SKILLS CLO 3 - Collect, record, analyse and interpret information using the conventions of scientific argument, judgment, deduction and communication, including: a) Creativity in defining and resolving scientific problems b) Rigor in designing and planning an investigation c) Rigorous collection, recording and treatment of data d) Demonstration of skills in quantitative and qualitative analysis e) Demonstrated capacity for self-management and organisation f) Written, oral and interpersonal communication skills demonstrating the capacity for efficient and effective communication of scientific data, information and arguments to scientific peer groups and the broader community APPLICATION CLO 4 - Provide evidence of ethical behaviour including: a) A demonstrated understanding of the ethics of science (including where applicable in clinical and professional settings) b) Demonstrated academic and scholarly integrity CLO 5 - Capacity to apply knowledge and skills in a global and regional context CLO 6 - Provide evidence of interdisciplinary thinking through: a) Demonstrated appreciation of different intellectual outputs and how they are used/understood by different disciplines b) Demonstrated capacity to work across disciplinary boundaries CLO 7 - Demonstrate accountability for your own learning by: a) Demonstrating a capacity to work under supervision and autonomously b) Working effectively in team environments, including teams with intercultural and interdisciplinary diversity c) Demonstrated capacity for critical reflection, including the capacity for lifelong learning |
Employment Prospects | This degree offers study suitable for graduates to enter a wide range of engineering and applied science careers as Engineering Technologists. Depending on the specific units chosen, graduates may pursue careers in industries associated with computing and information technology, industrial computer systems, instrumentation and control. |
Advanced Standing | This major is designed to admit students either through direct entry to the University, or via TAFE. Students who have completed appropriate TAFE qualifications may be admitted directly into the second year of the major. Upon successful completion of this course, it is possible with one further year of study to upgrade to a Bachelor of Engineering Honours degree. It should be noted that if a sufficient level of performance is achieved in the first year, it is also possible to transfer into the Engineering course in the second year of study. |
Further Information | See Engineering Honours courses |
Internet Access Requirements | Murdoch units normally include an online component comprising materials, discussions, lecture recordings and assessment activities. All students, regardless of their location or mode of study, need to have access to and be able to use computing devices with browsing capability and a connection to the Internet via Broadband (Cable, ADSL or Mobile) or Wireless. The Internet connection should be readily available and allow large amounts of data to be streamed or downloaded (approximately 100MB per lecture recording). Students also need to be able to enter into online discussions and submit assignments online. |
Students may need to complete one prerequisite unit depending on their background in mathematics with either a C grade in Mathematics Specialist ATAR (or Mathematics: Specialist 3C/3D) or a final scaled score of 60 percent or more in Mathematics Methods ATAR (or Mathematics 3C/3D). Students without this background will need to complete:
MAS164 Fundamentals of Mathematics - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
Students who have completed previous mathematics not stated above should consult the Academic Chair for clarification of their enrolment requirements.
Students may need to complete one prerequisite unit depending on their background in physics and their final scaled score in Physics 3A/3B (or equivalent) within the past three years.
Physics 3A/3B with a final scaled score of 60 percent or more
OR
PEN120 General Physics - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
Students who have completed previous physics not stated above should consult the Academic Chair for clarification of their enrolment requirements.
Course Structure - 72 credit points
Transition Unit - 3 credit points
BSC100 Building Blocks for Science Students - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
Breadth Unit for Degree - 3 credit points
The following unit is no longer available - contact the Academic Chair for advice:
BSC150 What is Science? - 3 points
Murdoch: S1-internal, S1-external, S2-internal, S2-external
ENG192 Energy, Mass and Flow - 3 points
MURDOCH: S2-internal, S2-external
MAS182 Applied Mathematics - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
ENG125 Circuits and Systems I - 3 points
MURDOCH: S2-internal
General Electives - 9 credit points
Select from any 100-level units offered by the University, subject to individual unit prerequisites. Students are advised to consider using General Elective points to meet the requirements of a second major or minor. Any recommended double majors and minors will be included in the major's description.
University-Wide Breadth Units - 6 credit points Unit List
Select from the prescribed list of University-Wide Breadth Units. A unit cannot be used to satisfy both this Breadth Unit requirement and the requirements of a major or minor. If taken at 100 level the unit(s) will be attributed to Part I. Note that no more than 30 credit points at Part I may be credited towards course completion requirements.
Research Skills Unit - 3 credit points
The Research Skills unit to be taken will depend on the student's Primary Major enrolment. Select from the following.
For Primary Major in Cognitive Neuroscience and Health Psychology
BSC201 Psychology: Measurement, Design and Analysis - 3 points
MURDOCH: S1-internal
For Primary Majors in the Health Sciences, as listed
Primary Major in Chiropractic Science, Exercise Physiology, Movement Science, or Sport and Health Science:
BSC206 Introduction to Research Methodology and Evidence Based Practice - 3 points
MURDOCH: S2-internal
For All Other Primary Majors excluding Information Technology
Select from the Research Skills Unit List recommended for each major. A unit cannot be used to satisfy both this Research Skills Unit requirement and the requirements of a major or minor. If taken at 100 level the unit(s) will be attributed to Part I. Note that no more than 30 credit points at Part I may be credited towards course completion requirements.
ENG207 Principles of Electronic Instrumentation - 3 points
MURDOCH: S2-internal, W-internal
Plus one unit from each of the following Groups.
ENG297 Circuits and Systems II - 3 points
MURDOCH: S1-internal
ENG298 Principles of Process Engineering - 3 points
MURDOCH: S1-internal
MAS221 Mathematical Modelling - 3 points
MURDOCH: S2-internal, S2-external
MAS220 Mathematical Methods - 3 points
MURDOCH: S1-internal, S1-external
ENG299 Control Systems and Process Dynamics - 3 points
MURDOCH: S2-internal
ENG294 Discrete Time Systems - 3 points
MURDOCH: S2-internal, SUM-internal
General Electives - 6 credit points
Select from any 200- to 400-level units offered by the University, subject to individual unit prerequisites. Students are advised to consider using General Elective points to meet the requirements of a second major or minor. Any recommended double majors and minors will be included in the major's description.
Research Skills Unit - 3 credit points
The Research Skills unit to be taken will depend on the student's Primary Major enrolment. Select from the following.
For Primary Major in Cognitive Neuroscience and Health Psychology
BSC302 Advanced Quantitative Research Methods - 3 points
MURDOCH: S2-internal
For Primary Majors in the Health Sciences, as listed
Primary major in Chiropractic Science, Movement Science, Sport and Health Science:
BSC306 Research and Evidence Based Practice - 3 points
MURDOCH: S1-internal
For All Other Primary Majors excluding Information Technology
Select from the Research Skills Unit List recommended for each major. A unit cannot be used to satisfy both this Research Skills Unit requirement and the requirements of a major or minor. If taken at 100 level the unit(s) will be attributed to Part I. Note that no more than 30 credit points at Part I may be credited towards course completion requirements.
Select one unit from Group 4 and one unit from Group 5.
ENG308 Advanced Process and Instrumentation Engineering - 3 points
MURDOCH: S1-internal
ENG311 PLC Systems - 3 points
MURDOCH: S1-internal
ENG317 Electromechanical Energy Conversion - 3 points
MURDOCH: S1-internal
ENG309 Process Control Engineering I - 3 points
MURDOCH: S1-internal
ENG318 Power Electronic Converters and Systems - 3 points
MURDOCH: S1-internal
ENG337 Applied Photovoltaics - 3 points
MURDOCH: S2-internal
ENG323 Power Transmission and Distribution Networks - 3 points
MURDOCH: S2-internal
ENG319 Real Time and Embedded Systems - 3 points
MURDOCH: S2-internal
ENG339 Wind and Hydro Power Systems - 3 points
MURDOCH: S2-internal
ENG338 Energy Supply and Management - 3 points
MURDOCH: S1-internal
ENG321 Instrument and Communication Systems - 3 points
MURDOCH: S2-internal
ENG322 Process Control Engineering II - 3 points
MURDOCH: S2-internal
General Electives - 12 credit points
Select from any 200- to 400-level units offered by the University, subject to individual unit prerequisites. Students are advised to consider using General Elective points to meet the requirements of a second major or minor. Any recommended double majors and minors will be included in the major's description.
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
COM103 Foundations of Communication - 3 points
MURDOCH: S2-internal, S2-external
BMS317 Human Pharmacology - 3 points
MURDOCH: S1-internal
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
COM103 Foundations of Communication - 3 points
MURDOCH: S2-internal, S2-external
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BIO257 Australian Biodiversity - 3 points
MURDOCH: S2-internal
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BIO377 Marine Ecology - 3 points
MURDOCH: S1-internal
BIO388 Forensic Science and Miscarriages of Justice - 3 points
MURDOCH: W-internal
CHE207 Chemical Analysis - 3 points
MURDOCH: S1-internal, S1-external
BIO393 Tropical Marine Biology - 3 points
MURDOCH: W-internal (quota of 40 places)
Conservation and Wildlife Biology Major
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BIO377 Marine Ecology - 3 points
MURDOCH: S1-internal
ENV328 Environmental Policy and Law - 3 points
MURDOCH: S1-internal, S1-external
SUS305 Economics of Sustainability - 3 points
MURDOCH: W-internal, W-external
COD302 Creative Ways to Work with Community - 3 points
MURDOCH: S2-internal, S2-external
BIO247 Biochemistry - 3 points
MURDOCH: S2-internal
ENV332 Managing Wetlands and Water - 3 points
MURDOCH: S2-internal, S2-external
BIO393 Tropical Marine Biology - 3 points
MURDOCH: W-internal (quota of 40 places)
Environmental Management and Sustainability Major
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO393 Tropical Marine Biology - 3 points
MURDOCH: W-internal (quota of 40 places)
MAS182 Applied Mathematics - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
MAS353 Statistical Design and Data Analysis - 3 points
MURDOCH: S2-internal, S2-external
ENV332 Managing Wetlands and Water - 3 points
MURDOCH: S2-internal, S2-external
ENG341 Water Conservation and Auditing - 3 points
MURDOCH: S1-internal, S1-external
COM103 Foundations of Communication - 3 points
MURDOCH: S2-internal, S2-external
BIO257 Australian Biodiversity - 3 points
MURDOCH: S2-internal
SUS305 Economics of Sustainability - 3 points
MURDOCH: W-internal, W-external
COD302 Creative Ways to Work with Community - 3 points
MURDOCH: S2-internal, S2-external
ENV241 Ecology - 3 points
MURDOCH: S2-internal, S2-external
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO393 Tropical Marine Biology - 3 points
MURDOCH: W-internal (quota of 40 places)
ENV334 Environmental Restoration - 3 points
MURDOCH: S1-internal (quota of 60 places), S1-external (quota of 60 places)
ENG341 Water Conservation and Auditing - 3 points
MURDOCH: S1-internal, S1-external
COM103 Foundations of Communication - 3 points
MURDOCH: S2-internal, S2-external
BIO257 Australian Biodiversity - 3 points
MURDOCH: S2-internal
MAS182 Applied Mathematics - 3 points
MURDOCH: S1-internal, S1-external, S2-internal, S2-external
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
ENV241 Ecology - 3 points
MURDOCH: S2-internal, S2-external
BIO393 Tropical Marine Biology - 3 points
MURDOCH: W-internal (quota of 40 places)
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BIO367 Forensic Toxicology - 3 points
MURDOCH: S2-internal
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BMS218 Haematology - 3 points
MURDOCH: S2-internal (quota of 80 places)
BMS323 Clinical Biochemistry I - 3 points
MURDOCH: S2-internal (quota of 25 places)
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
BMS317 Human Pharmacology - 3 points
MURDOCH: S1-internal
Clinical Laboratory Science Major
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BIO367 Forensic Toxicology - 3 points
MURDOCH: S2-internal
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BIO388 Forensic Science and Miscarriages of Justice - 3 points
MURDOCH: W-internal
BMS317 Human Pharmacology - 3 points
MURDOCH: S1-internal
Forensic Biology and Toxicology Major
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO388 Forensic Science and Miscarriages of Justice - 3 points
MURDOCH: W-internal
BIO394 Genetic Engineering - 3 points
MURDOCH: S1-internal
BMS218 Haematology - 3 points
MURDOCH: S2-internal (quota of 80 places)
BMS323 Clinical Biochemistry I - 3 points
MURDOCH: S2-internal (quota of 25 places)
BMS317 Human Pharmacology - 3 points
MURDOCH: S1-internal
Genetics and Molecular Biology Major
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO388 Forensic Science and Miscarriages of Justice - 3 points
MURDOCH: W-internal
BMS211 Medical Immunology and Molecular Genetics - 3 points
MURDOCH: S2-internal
BMS327 Diagnostic Genomics - 3 points
MURDOCH: S1-internal (quota of 30 places)
BIO367 Forensic Toxicology - 3 points
MURDOCH: S2-internal
BIO359 Forensic DNA Analysis - 3 points
MURDOCH: S1-internal
BMS218 Haematology - 3 points
MURDOCH: S2-internal (quota of 80 places)
BMS323 Clinical Biochemistry I - 3 points
MURDOCH: S2-internal (quota of 25 places)
BMS317 Human Pharmacology - 3 points
MURDOCH: S1-internal
MAS221 Mathematical Modelling - 3 points
MURDOCH: S2-internal, S2-external
CHE309 Advanced Projects in Chemistry and Mineral Science - 3 points
MURDOCH: S1-internal, S2-internal, SUM-internal
BSC304 Innovation and Ethics in Science - 3 points
MURDOCH: S1-internal, S1-external
Physics and Nanotechnology Major
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS222 Probability and Statistical Inference - 3 points
MURDOCH: S1-internal, S1-external
ICT289 Computer Graphics Principles and Programming - 3 points
MURDOCH: S1-internal, S1-external
ICT283 Data Structures and Abstractions - 3 points
MURDOCH: S1-internal, S1-external
ENG297 Circuits and Systems II - 3 points
MURDOCH: S1-internal
ENG207 Principles of Electronic Instrumentation - 3 points
MURDOCH: S2-internal, W-internal
ICT319 Intelligent Systems - 3 points
MURDOCH: S2-internal, S2-external
MAS221 Mathematical Modelling - 3 points
MURDOCH: S2-internal, S2-external
MAS351 Environmental and Biological Modelling - 3 points
MURDOCH: S1-internal, S1-external
MAS354 Modelling and Simulation - 3 points
MURDOCH: S2-internal, S2-external
BSC304 Innovation and Ethics in Science - 3 points
MURDOCH: S1-internal, S1-external
Mathematics and Statistics Major
MAS220 Mathematical Methods - 3 points
MURDOCH: S1-internal, S1-external
MAS222 Probability and Statistical Inference - 3 points
MURDOCH: S1-internal, S1-external
ICT283 Data Structures and Abstractions - 3 points
MURDOCH: S1-internal, S1-external
MAS351 Environmental and Biological Modelling - 3 points
MURDOCH: S1-internal, S1-external
MAS352 Time Series Analysis - 3 points
MURDOCH: S1-internal, S1-external
ICT373 Software Architectures - 3 points
MURDOCH: S1-internal, S1-external
ICT374 Operating Systems and Systems Programming - 3 points
MURDOCH: S2-internal, S2-external
MAS221 Mathematical Modelling - 3 points
MURDOCH: S2-internal, S2-external
The following unit is no longer available - contact the Academic Chair for advice:
BEN200 Scientific Method in Engineering - 3 points
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
BEN300 Innovation and Ethics in Engineering - 3 points
MURDOCH: S1-internal
BSC304 Innovation and Ethics in Science - 3 points
MURDOCH: S1-internal, S1-external
MAS351 Environmental and Biological Modelling - 3 points
MURDOCH: S1-internal, S1-external
MAS354 Modelling and Simulation - 3 points
MURDOCH: S2-internal, S2-external
ENG336 Engineering Finance, Management and Law - 3 points
MURDOCH: S2-internal
ENG255 Chemical Process Kinetics - 3 points
MURDOCH: S1-internal, S1-external
MAS221 Mathematical Modelling - 3 points
MURDOCH: S2-internal, S2-external
The following unit is no longer available - contact the Academic Chair for advice:
BEN200 Scientific Method in Engineering - 3 points
ENG299 Control Systems and Process Dynamics - 3 points
MURDOCH: S2-internal
BEN300 Innovation and Ethics in Engineering - 3 points
MURDOCH: S1-internal
MAS351 Environmental and Biological Modelling - 3 points
MURDOCH: S1-internal, S1-external
MAS354 Modelling and Simulation - 3 points
MURDOCH: S2-internal, S2-external
ENG336 Engineering Finance, Management and Law - 3 points
MURDOCH: S2-internal
BSC200 Research in the Physical and Life Sciences - 3 points
Not available this year
ENV303 GIS for Environmental Management and Planning - 3 points
MURDOCH: S2-internal (quota of 70 places), S2-external (quota of 20 places)
BIO246 Microbiology - 3 points
MURDOCH: S1-internal
BMS316 Parasitology: People, Pets and Wildlife - 3 points
MURDOCH: S2-internal
MAS223 Applied Statistics - 3 points
MURDOCH: S2-internal, S2-external
MAS224 Biostatistical Methods - 3 points
MURDOCH: S1-internal, S1-external
BIO282 Molecular Biology - 3 points
MURDOCH: S1-internal
Go to the Tuition Fee Calculator for this course for the following Student Types:
Domestic - Undergraduate - Commonwealth supported - commenced 2010 or later
Domestic - Undergraduate - Full fee paying - commenced any year
International Onshore - Undergraduate - commenced 2014
International Onshore - Undergraduate - commenced 2015 to 2017
International Onshore - Undergraduate - commenced 2018 or later
No course plans are available for this course in 2020.
To check other years, go to the Course Plans site.