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Checklist for students commencing course in 2007
All units and prerequisites are correct as at1 December 2006.
To confirm unit availability, please refer to the 2007 Handbook.
ENGINEERING (BE)
School of Electrical, Energy and Process Engineering
Bachelor of Engineering (BE) in Electrical Power Engineering
Bachelor of Engineering (BE) in Industrial Computer Systems Engineering
Bachelor of Engineering (BE) in Instrumentation and Control Engineering
Bachelor of Engineering (BE) in Renewable Energy Engineering
http://www.murdoch.edu.au/contacts/academic/School_of_Electrical,_Energy_and_Process_Engineering
Course Structure — 96 points Recommended:
Part I — 24 points MAS183 Statistical Data Analysis and Databases —
3 pts
□ A Foundation Unit — 3 points
Murdoch: S1-internal, S1-external, S2-internal,
For further information, refer to the Foundation S2-external. Students without the necessary
Units section in this Handbook. mathematics or physics background should take
Core Units — 18 points MAS164 or PEC120. Students who require both
may take an extra semester to complete their
□ PEC152 Principles of Physics — 3 pts
course and should discuss this with the Program
Murdoch: S1-internal, S1-external, S2-internal,
Chair.
S2-external. Students who have not completed
Physics at TEE level will be required to Part II — 72 points
undertake PEC120 General Physics — 3 pts Core Units — 56 points
[Murdoch: S1-internal, S1-external, S2-external]
□ ENG241 Principles of Process Engineering — 4
prior to completing this unit.
pts
□ MAS182 Applied Mathematics — 3 pts NA 2007
Murdoch: S1-internal, S1-external, S2-internal,
OR
S2-external. Students who have not completed
Year 11 Introduction to Calculus or TEE □ EXM224 Principles of Unit Operations in
Applicable Maths or equivalent will be required Mineral Processing — 4 pts
to undertake MAS164 Fundamentals of Murdoch: S1-internal, S1-external
Mathematics - 3 pts prior to completing this □ MAS242 Engineering Mathematics — 4 pts
unit. Murdoch: S1-internal
□ ENG141 Introduction to Engineering Concepts — □ ENG243 Circuits and Systems II — 4 pts
3 pts Murdoch: S1-internal
Murdoch: S1-internal □ MAS208 Mathematical Modelling — 4 pts
□ ENG109 Computing for Scientists and Engineers Murdoch: S2-internal, S2-external
— 3 pts □ ENG262 Principles of Electronic Instrumentation
Murdoch: S2-internal — 4 pts
□ ENG142 Engineering Economics and Accounting Murdoch: S2-internal
— 3 pts □ ENG267 Control Systems and Process Dynamics
Murdoch: S2-internal — 4 pts
□ ENG125 Circuits and Systems I — 3 pts Murdoch: S2-internal
Murdoch: S2-internal □ ENG453 Engineering Law, Management and
General Electives — 3 points Ethics — 4 pts
Select from any 100-level units offered by the Rockingham: S1-internal
University subject to individual unit Either
prerequisites.
_______________________________________________________________________________________________________
This checklist is only valid for students commencing the course in 2007. If you started the course before 2007, you must check
with the Divisional Office regarding required units for graduation. 1
Checklist for students commencing course in 2007
All units and prerequisites are correct as at1 December 2006.
To confirm unit availability, please refer to the 2007 Handbook.
□ ENG450 Engineering Internship — 12 pts □ ENG351 Renewable Energy Design Workshop —
Rockingham: H-internal, S1-internal, S2- 4 pts
internal, U-internal, Y-internal Murdoch: S2-internal
OR □ ENG421 Renewable Energy Systems Engineering
□ ENG460 Engineering Thesis — 12 pts — 4 pts
Rockingham: H-internal, S1-internal, S2- Rockingham: S1-internal
internal, U-internal, Y-internal Restricted Electives — 16 points
Plus 4 units from one of the following majors: In order to obtain professional accreditation,
Industrial Computer Systems Engineering students must undertake units that are acceptable to
□ ENG305 PLC Systems — 4 pts Engineers Australia.
Rockingham: S1-internal Choose four units from the majors listed above or
□ ENG345 SCADA Systems — 4 pts any other Part II units with permission of the
Rockingham: S2-internal Engineering Program Chair. The units may be
selected to complete a second engineering major.
□ ENG306 Real Time and Embedded Systems — 4
pts
Rockingham: S2-internal PREREQUISITES
□ ENG454 Industrial Computer Systems Design — □ ENG303 Advanced Process Engineering
4 pts G267/ENG267 Control Systems and process
Rockingham: S1-internal, U-internal Dynamics, G172/ENG172 Introduction to
Process Analysis OR ENG241 Principles of
Instrumentation and Control Engineering
Process Engineering.
□ ENG303 Advanced Process Engineering — 4 pts
□ MAS182 Applied Mathematics
Rockingham: S1-internal
M164/MAS164 Fundamentals of Mathematics
□ ENG304 Process Control Engineering I — 4 pts or at least a pass in the Year 11 course
Rockingham: S1-internal Introduction to Calculus together with at least
□ ENG346 Process Control Engineering II — 4 pts 55% in TEE Applicable Mathematics.
Rockingham: S2-internal □ ENG125 Circuits and Systems I
□ ENG420 Instrumentation and Control Systems MAS182 Applied Mathematics or concurrent
Design — 4 pts enrolment.
Rockingham: S1-internal, U-internal □ ENG243 Circuits and Systems II
Electrical Power Engineering G125/ENG125 Circuits and Systems 1;
□ ENG347 Electromechanical Energy Conversion G165/ENG165 Engineering Mathematics I or
— 4 pts MAS182 Applied Mathematics
Murdoch: S1-internal □ ENG109 Computing for Scientists and Engineers
□ ENG348 Power Transmission and Distribution Nil.
Networks — 4 pts □ ENG267 Control Systems and Process Dynamics
Murdoch: S2-internal G166/ENG166/ENG242 Engineering
□ ENG349 Power Electronic Converters and Mathematics II or MAS242 Engineering
Systems — 4 pts Mathematics or MAS161 Calculus and Matrix
Murdoch: S1-internal, S2-internal Algebra; ENG109 Computing for Scientists and
□ ENG455 Operation and Control of Power Engineers; PEC152 Principles of Physics. Co-
Systems — 4 pts requisite MAS208 Mathematical Modelling.
Murdoch: S1-internal □ ENG347 Electromechanical Energy Conversion
Renewable Energy Engineering ENG243 Circuits and Systems II.
□ ENG307 Resources for Renewable Energy — 4 □ ENG352 Energy Supply Systems
pts Completion of all 200 level units in the BE
Murdoch: S1-internal Renewable Energy Engineering course
□ ENG352 Energy Supply Systems — 4 pts □ ENG142 Engineering Economics and Accounting
Murdoch: S2-internal, Y-external MAS164 Fundamentals of Mathematics or
equivalent.
_______________________________________________________________________________________________________
This checklist is only valid for students commencing the course in 2007. If you started the course before 2007, you must check
with the Divisional Office regarding required units for graduation. 2
Checklist for students commencing course in 2007
All units and prerequisites are correct as at1 December 2006.
To confirm unit availability, please refer to the 2007 Handbook.
□ ENG450 Engineering Internship □ ENG262 Principles of Electronic Instrumentation
Completion of 24 points of third year units. ENG109 Computing for Scientists and
□ ENG453 Engineering Law, Management and Engineers, ENG243 Circuits and Systems II;
Ethics Co-requisite ENG267 Control Systems and
Enrolment in the Bachelor of Engineering and Process Dynamics.
completion of all the requirements of the 3rd □ PEC152 Principles of Physics
year of the Bachelor of Engineering. TEE Physics or M120/PEC120 General Physics.
□ MAS242 Engineering Mathematics TEE Applicable mathematics or M164/MAS164
MAS182 Applied Mathematics. Fundamentals of Mathematics and concurrent
enrolment in M182/MAS182 Applied
□ ENG460 Engineering Thesis
Mathematics.
Completion of 24 points of third year units.
□ ENG241 Principles of Process Engineering
□ PEC120 General Physics
MAS182 Applied Mathematics, ENG141
Nil. TEE Applicable Mathematics or MAS164
Introduction to Engineering Concepts.
Fundamentals of Mathematics are strongly
recommended and may be taken concurrently. □ EXM224 Principles of Unit Operations in Mineral
Processing
□ ENG454 Industrial Computer Systems Design
M182/MAS182 Applied Mathematics or
All core 200 level Engineering units; ENG305
M161/MAS161 Calculus and Matrix Algebra
PLC Systems; ENG306 Realtime and
and M152/PEC152 Principles of Physics or high
Embedded Systems; ENG345 SCADA and
school physics, or enrolment in G1034 Graduate
Instrumentation Systems.
Diploma in Extractive Metallurgy.
□ ENG420 Instrumentation and Control Systems
□ ENG304 Process Control Engineering I
Design
G267/ENG267 Control Systems and Process
ENG303 Advanced Process Engineering,
Dynamics; G172/ENG172 Introduction to
ENG304 Control Engineering and ENG346
Process Analysis OR ENG241 Principles of
Control Engineering II.
Process Engineering; Co-requisite ENG303
□ ENG141 Introduction to Engineering Concepts Process Engineering.
Nil.
□ ENG346 Process Control Engineering II
□ MAS208 Mathematical Modelling ENG304 Process Control Engineering I
M182/MAS182 Applied Mathematics or
□ ENG306 Real Time and Embedded Systems
M161/MAS161 Calculus and Matrix Algebra.
G267/ENG267 Control Systems and Process
□ ENG455 Operation and Control of Power Dynamics, G262/ENG262 Principles of
Systems Electronic Instrumentation.
ENG347 Electromechanical Energy Conversion,
□ ENG351 Renewable Energy Design Workshop
ENG348 Power Transmission and Distribution
Completion of all 200-level units in the BE
Networks, ENG349 Power Electronic
Renewable Energy Engineering course.
Converters and Systems.
□ ENG421 Renewable Energy Systems Engineering
□ ENG305 PLC Systems
ENG307 Resources for Renewable Energy,
G267/ENG267 Control Systems and process
ENG352 Energy Supply Systems, ENG351
Dynamics; G262/ENG262 Principles of
Renewable Energy Design Workshop.
Electronic Instrumentation.
□ ENG307 Resources for Renewable Energy
□ ENG349 Power Electronic Converters and
Completion of all 200 level units in the BE
Systems
Renewable Energy Engineering major.
ENG262 Principles of Electronic
Instrumentation □ ENG345 SCADA Systems
ENG305 PLC Systems; Co-requisite ENG306
□ ENG348 Power Transmission and Distribution
Realtime and Embedded Systems.
Networks
ENG347 Electromechanical Energy Conversion. □ MAS183 Statistical Data Analysis and Databases
Nil.
_______________________________________________________________________________________________________
This checklist is only valid for students commencing the course in 2007. If you started the course before 2007, you must check
with the Divisional Office regarding required units for graduation. 3
