wwwdev@monash.edu.au
Tue Jul 13 11:18:30 EST 1999
Auth: University Webmaster's Office
Copyright © Monash University 1998 - All Rights Reserved - Caution
As noted in the introduction to the 'Outline of undergraduate studies', the faculty has replaced the degree programs previously offered at Caulfield, Clayton and Gippsland with a single Bachelor of Engineering degree to be offered in a variety of branches across three campuses. The first level of the new degree, common to all streams of engineering, commenced in 1998 as outlined below in this handbook. The second level of the new degree will be introduced in 1999, and in some cases departments will also be introducing their third and fourth levels. All students admitted to candidature for a Bachelor of Engineering degree in 1999 will automatically be transferred to branches of the new degree at the end of that year.
Level |
Subject |
Credit points |
Prerequisites |
Corequisites |
Bachelor of Engineering |
||||
Level 1 |
Core subjects |
|||
ENG1101 Chemical engineering |
4 |
|||
ENG1201 Civil engineering |
4 |
|||
ENG1301 Electrical engineering |
4 |
|||
ENG1401 Mechanical engineering |
4 |
|||
ENG1501 Materials engineering |
4 |
|||
ENG1601 Engineering context |
4 |
|||
ENG1602 Engineering computing |
4 |
Basic keyboard skills assumed |
||
ENG1603 Engineering systems |
4 |
VCE Specialist Mathematics or ENG1901 or MAT1910 |
||
ENG1902 Engineering mathematics B |
4 |
VCE Specialist Mathematics or ENG1901 |
||
Subtotal: 36 cp |
||||
Group 'A' subjects: |
||||
None, one or two subjects (depending on prerequisites) selected from: |
||||
ENG1701 Chemistry A |
4 |
|||
ENG1801 Physics A |
4 |
VCE Mathematical Methods |
||
ENG1901 Engineering mathematics A |
4 |
VCE Mathematical Methods |
||
Elective subjects (please note that not all electives are offered at all campuses - please consult your campus office for elective details) |
||||
One, two or three subjects (depending on prerequisites), of which at least one must by chosen from group 1: |
||||
Group 1: |
||||
ENG1702 Chemistry B |
4 |
VCE Chemistry or ENG1701 |
||
ENG1802 Physics B |
4 |
VCE Physics or ENG1801 |
||
Group 2: |
||||
CHE1120 Industrial chemistry |
4 |
VCE Chemistry or ENG1701 |
||
ENE1620 Environmental engineering |
4 |
|||
ENG1302 Engineering in medicine and biology |
4 |
ENG1701 if VCE Chemistry not completed | ||
ENG1803 Physics C |
4 |
VCE Physics or ENG1801 |
ENG1901 if VCE Specialist Mathematics not completed | |
MEC1414 Engineering practices: drafting |
4 |
|||
Other approved electives worth not less than 4 cp, which may include later year subjects for which prerequisites have been satisfied. For example, the following subjects have already received departmental approval: |
Not less than 4 cp |
|||
MEC2430 Fluid mechanics |
4 |
VCE Specialist Mathematics or ENG1901 |
||
MTE2506 Materials selection and manufacturing |
4 |
|||
Total: 48 cp |
||||
BE Distance education mode(available at Gippsland campus only) |
||||
Level 1 |
GEG1133 Technical computing tools |
4 |
Admission to BE |
|
GEG1303 Introduction to engineering structures |
4 |
Admission to BE |
||
GAS1386 Physics for engineers |
4 |
Admission to BE |
||
GEG1503 Electric circuits |
4 |
Year 12 Mathematics or GAS1601 |
||
GEG1713 Engineering materials |
4 |
Admission to BE |
||
GEG1723 Engineering dynamics |
4 |
Admission to BE |
||
GAS1641 Engineering mathematics1A |
4 |
An appropriate Year 12 Maths or GAS1601 |
||
GAS1642 Engineering mathematics1B |
4 |
GAS1641 |
||
NB: Four subjects are being developed for the new BE degree. These will be offered by distance education as they become available. |
||||
Course in chemical engineering(available at Clayton campus only) |
||||
Level 2 |
Core subjects |
|||
CHE2100 Momentum transfer I |
4 |
CHE1110 or ENG1101 |
||
CHE2113 Principles of chemical processing systems I |
4 |
CHE1110 or ENG1101 |
||
CHE2114 Principles of chemical processing systems II |
4 |
|||
CHE2120 Thermodynamics I |
4 |
CHE1110 or ENG1101 |
||
CHE2121 Biological processes |
4 |
|||
CHE2140 Chemical engineering |
4 |
CHE1110 or ENG1101 |
||
CHE2150 Chemical engineering practice I |
4 |
CHE1110 or ENG1101 |
||
CHE2160 Chemical engineering practice II |
4 |
CHE1110 or ENG1101 |
||
CHM2731 Chemistry C |
4 |
VCE Chemistry or ENG1701 |
||
CHM2732 Chemistry D |
4 |
|||
MAT2901 Multivariable calculus for engineering |
4 |
|||
MAT2902 Linear algebra and differential equations for engineering |
4 |
|||
Total: 48 cp |
||||
Level 3 (in 1999 only) |
Core subjects |
|||
CHE3101 Reaction engineering I |
3 |
CHE2111 |
||
CHE3102 Heat and mass transfer I |
3 |
CHE2111 |
||
CHE3103 Heat and mass transfer II |
3 |
CHE2111 |
||
CHE3104 Momentum transfer II |
3 |
|||
CHE3107 Process control |
4 |
CHE2111, MAT2920 |
||
CHE3108 Process design and operation I |
3 |
|||
CHE3109 Process design and operation II |
3 |
|||
CHE3111 Transport phenomena I |
3 |
CHE2100, MAT2910, MAT2920 |
||
CHE3112 Transport phenomena II |
3 |
|||
CHE3113 Thermodynamics II |
3 |
|||
CHE3114 Thermodynamics and electrochemistry |
3 |
|||
CHE3117 Introduction to process simulation |
3 |
|||
CHE3118 Chemical engineering practice III |
3 |
|||
CHE3119 Chemical engineering practice IV |
3 |
|||
MAT3910 Integral transforms and calculus of variations |
3 |
MAT2910, MAT2920 |
||
MAT3920 Statistical methods |
3 |
MAT2910 |
||
Total: 49 cp |
||||
Level 3 (2000 onwards) |
Core subjects |
|||
CHE3101 Reaction engineering I |
4 |
|||
CHE3102 Heat and mass transfer I |
4 |
|||
CHE3103 Heat and mass transfer II |
4 |
|||
CHE3104 Momentum transfer II |
4 |
|||
CHE3107 Process control |
4 |
|||
CHE3108 Process design and operation I |
3 |
|||
CHE3109 Process design and operation II |
4 |
|||
CHE3111 Transport phenomena I |
4 |
|||
CHE3113 Thermodynamics II |
4 |
|||
CHE3118 Chemical engineering practice III |
3 |
|||
CHE3119 Chemical engineering practice IV |
3 |
|||
CHE3130 Computer applications |
3 |
|||
MAT3901 Statistics and integral transforms for engineering |
4 |
|||
Total: 48 cp |
||||
Level 4 (in 1999/2000 only) |
Core subjects |
|||
CHE4102 Reaction engineering II |
3 |
|||
CHE4109 Process design and operation III |
4 |
|||
CHE4110 Process simulation and control |
4 |
|||
CHE4112 Environmental engineering |
4 |
|||
CHE4114 Management I |
3 |
|||
CHE4115 Management II |
3 |
|||
CHE4117 Design project |
10 |
CHE3102, CHE3103, CHE3104, CHE3114, CHE4102, CHE4109, CHE4110, CHE4114 |
||
Elective subjects |
||||
A total of fifteen credit points must be selected from offerings listed below. |
||||
CHE4116 Chemical engineering lab project* |
6 |
|||
CHE4118 Chemical engineering research project* |
9 |
|||
CHE4131 Mineral processing |
3 |
|||
CHE4132 Biochemical engineering |
3 |
CHE3121 |
||
CHE4134 Polymer process engineering |
3 |
|||
CHE4141 Extractive metallurgy |
3 |
|||
CHE4142 Pulp and paper technology |
3 |
|||
CHE4143 Selected topics in heat and mass transfer |
3 |
|||
CHE4144 Selected topics in thermodynamics |
3 |
|||
CHE4145 Selected topics in dynamic simulation and control |
3 |
|||
CHE4146 Process analysis |
3 |
|||
CHE4147 Selected topics in transport phenomena |
3 |
|||
CHE4148 Interfacial phenomena |
3 |
|||
CHE4149 Food engineering |
3 |
|||
CHE4150 Applied mathematics in chemical engineering |
3 |
|||
CHE4152 Cleaner production technologies |
3 |
|||
ENG4611 Schools technology studies project |
3 or 6 |
|||
Interfaculty subject |
6 |
|||
*Only
one of CHE4116.06 or CHE4118.09 may be taken. |
||||
Total: 46 cp |
||||
Level 4 (2001 onwards) |
Core subjects |
|||
CHE4102 Reaction engineering II |
4 |
|||
CHE4109 Process design and operation III |
4 |
|||
CHE4110 Process simulation and control |
4 |
|||
CHE4112 Environmental engineering |
4 |
|||
CHE4114 Management I |
4 |
|||
CHE4117 Design project |
10 |
CHE3102, CHE3103, CHE3104, CHE3113, CHE4102, CHE4109, CHE4110, CHE4114 |
||
Elective subjects |
||||
A total of eighteen credit points must be selected from the elective list on the previous level 4 list. |
18 |
|||
Total: 48 cp |
Requirements
for the degree in chemical engineering (for students commencing in 1997 and
earlier)
The student requires 188 credit points for the degree.
Requirements for the degree in chemical engineering (for students commencing
in 1998 and later)
The student requires 192 credit points for the degree.
Course in civil engineering(available at Clayton campus only) |
||||
Level 2 |
Core subjects |
|||
CIV2202 Surveying |
4 |
|||
CIV2203 Communications |
4 |
|||
CIV2204 Strength of materials |
4 |
|||
CIV2205 Modelling and computing |
4 |
|||
CIV2222 Steel framed structures |
4 |
|||
CIV2223 Design of concrete structures |
4 |
|||
CIV2224 Timber and masonry structures |
4 |
|||
CIV2241 Introductory geoengineering |
4 |
|||
CIV2261 Water supply I |
4 |
|||
CIV2281 Transport and traffic |
4 |
|||
MAT2911 Mathematical methods with applications 1 |
4 |
|||
MAT2912 Mathematical methods with applications 2 |
4 |
|||
Total: 48 cp |
||||
Level 3 (in 1999 only) |
Core subjects |
|||
CIV3202 Civil engineering practice 3 |
4 |
|||
CIV3203 Civil engineering project management |
3 |
|||
CIV3225 Steel structures |
3 |
CIV2260 |
||
CIV3227 Elastic stress analysis |
3 |
CIV2221 or CIV2230 |
||
CIV3228 Concrete structural design |
3 |
CIV2260 |
||
CIV3229 Analysis of structures |
3 |
CIV2221 or CIV2210 |
||
CIV3230 Inelastic structures |
3 |
CIV2221 or CIV2210 |
||
CIV3244 Groundwater, seepage and environmental geoengineering |
3 |
CIV2270 or CIV2271 |
||
CIV3245 Geoengineering geology |
3 |
CIV2270 or CIV2271 |
||
CIV3246 Geoengineering: Stability and settlement |
3 |
CIV2270 or CIV2271 |
||
CIV3261 Hydraulics |
4 |
|||
CIV3262 Public health engineering |
3 |
|||
CIV3263 Hydrology |
3 |
|||
CIV3281 Transport and traffic engineering |
3 |
CIV2250 |
||
Level 3 (for 2000 onwards) |
Core subjects |
|||
CIV3XXX Road engineering |
4 |
|||
CIV3XXX Geoengineering - strength and deformation |
4 |
|||
CIV3XXX Geoengineering - stability |
4 |
|||
CIV3XXX Groundwater |
4 |
|||
CIV3XXX Water supply 2 |
4 |
|||
CIV3XXX Urban drainage and sewerage |
4 |
|||
CIV3XXX Building structures |
4 |
|||
CIV3XXX Aging infrastructure and building technology |
4 |
|||
CIV3XXX Bridge structures |
4 |
|||
CIV3XXX Business enterprise and management |
4 |
|||
CIV3XXX Project management |
4 |
|||
CIV3XXX Statistics |
4 |
|||
Total: 48 cp |
||||
Level 4 (in 1999/2000 only) |
Core subjects |
|||
CIV4210 Project A |
6 |
Completion of 116 cp and level-three subjects in chosen area |
||
CIV4212 Civil engineering practice 4 |
6 |
CIV3224 or CIV3228, CIV3225, CIV3241 or CIV3242 or CIV3243 or CIV3246, CIV3261, CIV3262, CIV3263, CIV3281 |
||
CIV4213 Civil engineering business management |
3 |
|||
CIV4232 Timber, masonry and building technology |
3 |
CIV1210 or ENG1201 |
||
CIV4233 Concrete technology |
3 |
CIV2260 |
||
CIV4282 Highway engineering |
4 |
|||
Elective subjects |
||||
At least 15 cp required availability of some subjects will depend upon sufficient enrolments |
||||
CIV4214 Civil engineering computing applications |
5 |
CIV2250 |
||
CIV4230 Theory of structures 4A |
5 |
|||
CIV4231 Theory of structures 4B |
5 |
|||
CIV4248 Geoengineering hazards |
5 |
|||
CIV4249 Foundation engineering |
5 |
|||
CIV4265 Hydraulic engineering |
5 |
|||
CIV4266 Public health engineering |
5 |
|||
CIV4267 Hydrology and water resources |
5 |
|||
CIV4283 Transport planning |
5 |
|||
CIV4284 Transport systems |
5 |
|||
CME4617 Finite element method (civil engineering) |
5 |
CIV3223 or CIV3227 |
||
CES4642 Geophysics II |
5 |
CIV3641 |
||
CIV4211 Project B. Enrolment in this subject is by departmental approval only. |
6 |
CIV4210 and a credit-weighted average of at least 65% |
||
Level 4 (for 2001 onwards) |
Core subjects |
|||
CIV4XXX Project A |
6 |
|||
Interfaculty subject (non-technology subject) |
6 |
|||
Elective subjects (minimum of 4 required): |
||||
CIV4XXX Project B |
6 |
|||
CIV4XXX Safety and risk |
6 |
|||
CIV4XXX Polymer composite structures |
6 |
|||
CIV4XXX Coastal and offshore structures |
6 |
|||
CIV4XXX Advanced structural applications |
6 |
|||
CIV4XXX Ground hazards and environmental geomechanics |
6 |
|||
CIV4XXX Foundation engineering |
6 |
|||
CIV4XXX Transport planning |
6 |
|||
CIV4XXX Transport systems |
6 |
|||
CIV4XXX Catchment management |
6 |
|||
CIV4XXX Flood management |
6 |
|||
Free electives (available anywhere in the university, including the department, where the subject does not substantially duplicate material already studied). |
12 |
|||
Total: 48 cp |
Requirements
for the degree in civil engineering (for students commencing in 1997 and
earlier)
The student requires 188 credit points for the degree. The core consists of
forty credit points at level one, forty-four credit points at level two,
forty-four credit points at level three, and twenty-five credit points at level
four, totalling 153 credit points. A minimum of fifteen credit points must be
obtained from elective subjects from level four. The remaining twenty credit
points must include at least six from approved interfaculty subjects in the
humanities. The balance of fourteen credit points may be obtained at any level
in any department which accepts the enrolment. These credits may not be
used to substantially duplicate material already covered in the civil
engineering degree.
Requirements for the degree in civil engineering (for students commencing in
1998 and later)
The student requires 192 credit points for the degree. The core consists of
forty-eight credit points at levels one, two and three and thirty-six points at
level four (which includes four electives). The student may choose the
remaining twelve credit points from anywhere in the university. These credits
may not substantially duplicate material already studied.
Course in electrical & computer systems engineering(available at Clayton campus only) |
||||
Level 2 |
Core subjects |
|||
ECE2101 Signals and systems I |
4 |
|||
ECE2201 Electromagnetics |
4 |
|||
ECE2401 Telecommunications |
4 |
|||
ECE2501 Electrical energy generation and distribution |
4 |
|||
ECE2601 Electronics and control systems I |
4 |
|||
ECE2701 Digital logic |
4 |
|||
ECE2702 Computer organisation |
4 |
|||
ECE2903 Physics of electronic devices |
4 |
|||
ECE2904 Mechanics and thermodynamics |
4 |
|||
ENG1803 Physics C (if not taken in first year) or otherwise one 4 cp elective subject |
4 |
VCE Physics or ENG1801 |
ENG1901 if VCE Specialist Mathematics not completed | |
MAT2901 Multivariable calculus for engineering |
4 |
|||
MAT2902 Linear algebra and differential equations for engineering |
4 |
|||
Total: 48 cp |
||||
Level 3 (in 1999 only) |
Level-three subjects |
|||
ECS3311 Circuit theory II |
2 |
ECS2310 |
||
ECS3312 Circuit theory III |
3 |
|||
ECS3321 Electromagnetic theory II |
4 |
ECS2310, ECS2320 P1 |
||
ECS3331 Control systems II |
3 |
ECS2360 |
||
ECS3341 Information transmission |
4 |
ECS2340 P1, MAT3910 |
||
ECS3342 Switching and signalling |
4 |
ECS2340 P1 |
||
ECS3343 Computer communications |
3 |
|||
ECS3351 Electrical energy II |
4 |
ECS2350 P1 |
||
ECS3361 Small-signal amplifiers |
4 |
|||
ECS3362 Large-signal circuits |
4 |
ECS2360 PI |
||
ECS3363 Introduction to VLSI systems |
3 |
|||
ECS3371 Computer systems engineering III |
4 |
ECS2370 P1 |
||
ECS3372 Advanced computer architectures |
3 |
|||
ECS3381 Computer systems engineering IV |
4 |
ECS2380, ECS3371 |
||
ECS3382 Interactive computer graphics |
3 |
Level two substantially complete |
||
ECS3383 Computer image processing and pattern recognition |
3 |
Level two substantially complete |
||
ECS3391 Electrical design |
3 |
|||
ECS3392 Management II |
3 |
|||
MAT3910 Integral transforms and calculus of variations |
3 |
MAT2910, MAT2920 |
||
MAT3920 Statistical methods |
3 |
MAT2910 |
||
Level-three streams |
||||
Computer
systems |
||||
Electrical
and electronic systems |
||||
Telecommunications |
||||
Level 3 (for 2000 onwards) |
Core subjects |
|||
ECE3102 Signals and systems 2 |
4 |
MAT3901 | ||
ECE3202 Electromagnetic propogation |
4 |
|||
ECE3301 Control systems 2 |
4 |
|||
ECE3402 Information transmission |
4 |
|||
ECE3502 Electrical energy machines and power electronics |
4 |
|||
ECE3602 Electronics 2 |
4 |
|||
ECE3603 Electronics 3 |
4 |
|||
ECE3703 Computer engineering |
4 |
|||
ECE3704 Software engineering and real-time systems |
4 |
|||
ECE3905 Design |
4 |
|||
ECE3907 Engineering management A |
4 |
|||
MAT3901 Statistics and integral transforms for engineering |
4 |
|||
Total: 48 cp |
||||
Level 4 (in 1999/2000 only) |
Level-four subjects |
|||
ECS4301 Special elective |
3 |
|||
ECS4313 Signal processing |
4 |
|||
ECS4314 Photonic signal processing |
3 |
Level three substantially complete |
||
ECS4322 Microwave and mobile radio systems |
3 |
|||
ECS4323 Advanced optical communication systems |
3 |
Level three substantially complete |
||
ECS4332 Modern control systems |
4 |
|||
ECS4333 Advanced control systems |
3 |
|||
ECS4344 Digital transmission and optical systems |
4 |
|||
ECS4345 Mobile systems and network design |
3 |
|||
ECS4346 Communication protocol engineering |
3 |
|||
ECS4347 Telecommunications network performance |
3 |
|||
ECS4348 Software engineering for telecommunications |
3 |
ECS2380 |
||
ECS4349 Video coding for telecommunications |
3 |
|||
ECS4353 Electrical energy systems I |
4 |
ECS2350 |
||
ECS4354 Electrical energy conversion |
4 |
|||
ECS4355 High voltage systems |
3 |
ECS2320 |
||
ECS4356 Advanced power systems |
3 |
|||
ECS4357 Power electronics applications |
3 |
|||
ECS4358 Electrical energy systems II |
3 |
|||
ECS4359 Basic reliability engineering |
3 |
MAT2920 |
||
ECS4364 Feedback amplifiers |
4 |
|||
ECS4365 Advanced electron and photon devices |
4 |
ECS2360 |
||
ECS4366 Bioengineering instrumentation |
3 |
|||
ECS4367 Electronic systems and components |
4 |
|||
ECS4368 Electroacoustics |
3 |
|||
ECS4373 Computer systems engineering V |
4 |
|||
ECS4374 Computer systems design |
3 |
|||
ECS4378 Neural computing |
3 |
Level two substantially complete |
||
ECS4379 Object-oriented programming and C++ |
3 |
ECS2380 |
||
ECS4385 Computational methods |
3 |
|||
ECS4387 Computer vision and robotics |
3 |
Level two substantially complete |
||
ECS4393 Management III |
3 |
|||
ECS4394 Thesis project A |
9 |
Level three substantially complete |
||
ECS4395 Thesis project B |
12 |
Level three substantially complete |
||
ECS4396 Thesis project C |
15 |
Level three substantially complete |
||
ECS4398 Thesis project A1 |
9 |
Level three substantially complete |
||
ECS4399 Thesis project B1 |
12 |
Level three substantially complete |
||
Level-four streams |
||||
Computer
systems |
||||
Electrical
and electronic systems |
||||
Telecommunications |
||||
Level 4 (for 2001 onwards) |
Core subjects |
|||
ECE4705 Computer architecture |
4 |
|||
ECE4908 Engineering management B |
4 |
|||
ECE4909 Thesis |
12 |
|||
Elective subjects |
||||
Choose twenty-eight credit points worth |
28 |
|||
Total: 48 cp |
Requirements
for the degree in electrical and computer systems engineering (for students
commencing in 1997 and earlier)
The student requires 188 credit points for the degree.
Requirements for the degree in electrical and computer systems engineering
(for students commencing in 1998 and later)
The student requires 192 credit points for the degree.
Course in industrial engineering and engineering management(available at Caulfield and Sunway campuses only) |
||||
Level 2 |
Core subjects |
|||
IND2311 Methods engineering |
4 |
|||
IND2332 Engineering management |
4 |
|||
MAT2901 Multivariable calculus for engineering |
4 |
|||
MAT2902 Linear algebra and differential equations for engineering |
4 |
|||
MEC2414 Engineering practices: drafting |
4 |
|||
MEC2420 Engineering practices: design process |
4 |
|||
MEC2430 Fluid mechanics |
4 |
|||
MEC2440 Applied mechanics |
4 |
|||
MEC2450 Engineering practices: design of machine elements |
4 |
|||
MEC2470 Mechanics of solids |
4 |
|||
MEC2480 Thermodynamics |
4 |
|||
MEC2490 Computer programming |
4 |
|||
Total: 48 cp |
||||
Level 3 |
Core subjects |
|||
IND3311 Facilities planning and design |
6 |
|||
IND3312 Quality systems and control |
6 |
|||
IND3XXX Systems modelling and simulation 1 |
6 |
|||
IND3XXX Engineering computation |
6 |
|||
IND3XXX Engineering economy |
6 |
|||
IND3XXX Real time and information systems |
6 |
|||
IND3XXX Design for manufacture |
6 |
|||
IND3XXX Professional practice for engineers I |
6 |
|||
Total: 48 cp |
||||
Level 4 |
Core subjects |
|||
IND4XXX Engineering project: project thesis A |
6 |
|||
IND4XXX Engineering project: project thesis B |
6 |
|||
Elective subjects (select six of which at least four must be chosen from subjects offered by the Department of Mechanical Engineering) |
||||
IND4311 Production planning and control |
6 |
|||
IND4312 Design of productive systems |
6 |
|||
IND4335 Computer integrated manufacturing |
6 |
|||
IND4XXX Systems modelling and simulation II |
6 |
|||
IND4XXX Professional practice for engineers II |
6 |
|||
IND4XXX Industrial marketing |
6 |
|||
IND4XXX Systems reliability and maintenance |
6 |
|||
Total: 48 cp |
Requirements
for the degree in industrial engineering and engineering management
The student requires 192 credit points for the degree.
Course in interdisciplinary engineering(available at the Gippsland campus only) |
||||
Level 2 |
Six common core subjects are taken during first semester of level two. At the end of the first semester, a discipline field is selected as a potential 'discipline major' area of study, and the second semester study program is selected accordingly. |
|||
Common core subjects |
||||
GSE2001 Engineering activity and biological systems |
4 |
|||
GSE2002 Engineering design and computer-aided drawing |
4 |
|||
GSE2003 Measurement and instrumentation |
4 |
|||
GSE2303 Digital electronics I |
4 |
|||
GSE2701 Engineering computer techniques |
4 |
|||
GSE2703 Engineering mathematical analysis |
4 |
|||
Discipline fields |
||||
Civil engineering field |
||||
GSE2201 Structural mechanics |
4 |
|||
GSE2202 Introduction to geoengineering |
4 |
|||
GSE2203 Fluid mechanics |
4 |
|||
Elective subjects (3 of 4 to be chosen): |
||||
GSE2301 Electrical power I |
4 |
|||
GSE2302 Analog electronic devices |
4 |
|||
GSE2401 Thermodynamics I |
4 |
|||
GSE2402 Applied mechanics |
4 |
|||
Electrical engineering field |
||||
GSE2301 Electrical power I |
4 |
|||
GSE2302 Analog electronic devices |
4 |
|||
Elective subjects (4 of 5 to be chosen): |
||||
GSE2201 Structural mechanics |
4 |
|||
GSE2202 Introduction to geoengineering |
4 |
|||
GES2203 Fluid mechanics |
4 |
|||
GSE2401 Thermodynamics I |
4 |
|||
GSE2402 Applied mechanics |
4 |
|||
Mechanical engineering field |
||||
GSE2203 Fluid mechanics |
4 |
|||
GSE2401 Thermodynamics I |
4 |
|||
GSE2402 Applied mechanics |
4 |
|||
Elective subjects (3 of 4 to be chosen): |
||||
GSE2201 Structural mechanics |
4 |
|||
GSE2202 Introduction to geoengineering |
4 |
|||
GSE2301 Electrical power I |
4 |
|||
GSE2302 Analog electronic devices |
4 |
|||
Information engineering field |
||||
GSE2302 Analog electronic devices |
4 |
|||
GSE2402 Applied mechanics |
4 |
|||
Elective subjects (4 of 5 to be chosen): |
||||
GSE2201 Structural mechanics |
4 |
|||
GSE2202 Introduction to geoengineering |
4 |
|||
GSE2203 Fluid mechanics |
4 |
|||
GSE2301 Electrical power I |
4 |
|||
GSE2401 Thermodynamics I |
4 |
|||
Total: 48 cp |
||||
Level 3 |
At level three, seven common core subjects are taken. Students must choose one of two alternative programs of major study. The first program comprises significant further study in the field identified in level two as the discipline major, supported by study in a minor field. The second program involves the development of a double major through the selection of a second major field: the two majors are then studied equally. Information engineering must be one of the fields selected, as either a discipline major, a minor or one of the double majors. Students are advised on their choice of program and on the selection of subjects, from those listed below, appropriate to the program chosen. |
|||
Common core subjects |
||||
GSE3000 Industrial experience |
0 |
|||
GSE3001 Social responsibility and professional development |
4 |
|||
GSE3002 Sustainable development |
4 |
|||
GSE3003 Engineering project management |
4 |
|||
GSE3701 Engineering computer applications |
4 |
|||
GSE3702 Software engineering |
4 |
|||
GSE3703 Computer instrumentation and control |
4 |
|||
Discipline majors |
||||
Civil engineering field |
||||
GSE3201 Structural analysis |
4 |
|||
GSE3202 Soil and foundation mechanics |
4 |
|||
GSE3203 Water supply and sewage |
4 |
|||
GSE3204 Construction practice |
4 |
|||
GSE3205 Design of concrete structures |
4 |
|||
GSE3206 Design of timber structures |
4 |
|||
Electrical engineering field |
||||
GSE3301 Electrical design |
4 |
|||
GSE3302 Analog electronic applications |
4 |
|||
GSE3303 Digital electronics II |
4 |
|||
GSE3304 Microprocessors and applications |
4 |
|||
GSE3305 Communications systems |
4 |
|||
GSE3306 Electrical network analysis |
4 |
|||
Mechanical engineering field |
||||
GSE3401 Thermodynamics II |
4 |
|||
GSE3402 Mechanical design |
4 |
|||
GSE3403 Mechanics of materials |
4 |
|||
GSE3404 Fluid mechanics |
4 |
|||
GSE3405 Computer integrated manufacturing |
4 |
|||
GSE3406 Maintenance and asset management |
4 |
|||
Information engineering field |
||||
GSE3704 Distributed computing systems |
4 |
|||
GSE3705 Embedded systems |
4 |
|||
Elective subjects (4 subjects determined by other discipline choice) |
16 |
|||
Double majors |
||||
Civil engineering field |
||||
GSE3201 Structural analysis |
4 |
|||
GSE3202 Soil and foundation mechanics |
4 |
|||
GSE3203 Water supply and sewerage |
4 |
|||
GSE3204 Construction practice |
4 |
|||
GSE3205 Design of concrete structures |
4 |
|||
GES3704 Distributed computing systems |
4 |
|||
Electrical engineering field |
||||
GSE3301 Electrical design |
4 |
|||
GSE3302 Analog electronic applications |
4 |
|||
GSE3303 Digital electronics II |
4 |
|||
GSE3304 Microprocessors and applications |
4 |
|||
GSE3305 Communication systems |
4 |
|||
GSE3704 Distributed computing systems |
4 |
|||
Mechanical engineering field |
||||
GSE3401 Thermodynamics II |
4 |
|||
GSE3402 Mechanical design |
4 |
|||
GSE3403 Mechanics of materials |
4 |
|||
GSE3404 Fluid mechanics |
4 |
|||
GSE3405 Computer integrated manufacturing |
4 |
|||
GSE3704 Distributed computing systems |
4 |
|||
Information engineering field |
||||
GSE3704 Distributed computing systems |
4 |
|||
GSE3705 Embedded systems |
4 |
|||
Elective subjects (4 subjects determined by other discipline choice) |
16 |
|||
Total: 48 cp |
||||
Level 4 |
At level four, a further six common core subjects are taken and the two alternative programs of major study continue. |
|||
Common core subjects |
||||
GSE4000 Engineering project |
12 |
|||
GSE4001 Environmental engineering |
4 |
|||
GSE4002 Engineering management |
4 |
|||
GSE4701 Geospatial information systems |
4 |
|||
GSE4702 Digital imaging |
4 |
|||
GSE4704 Graphic simulation and modelling |
4 |
|||
Discipline majors |
||||
Civil engineering field |
||||
GSE4202 Geotechnical engineering |
4 |
|||
GSE4203 Land and waterway management |
4 |
|||
GSE4204 Road engineering |
4 |
|||
GSE4205 Design of steel structures |
4 |
|||
Electrical engineering field |
||||
GSE4301 Electrical power engineering II |
4 |
|||
GSE4302 Power electronics |
4 |
|||
GSE4303 Control systems |
4 |
|||
GSE4304 Digital signal processing |
4 |
|||
Mechanical engineering field |
||||
GSE4303 Control systems |
4 |
|||
GSE4401 Energy and heat transfer |
4 |
|||
GSE4402 Vibration and acoustics |
4 |
|||
GSE4403 Industrial robotic systems |
4 |
|||
Information engineering field |
||||
GSE4303 Control systems |
4 |
|||
GSE4304 Digital signal processing |
4 |
|||
GSE4703 Artifical intelligence in practice |
4 |
|||
GSE4705 Industrial supervisory software |
4 |
|||
Double majors |
||||
Civil engineering field |
||||
GSE4202 Geotechnical engineering |
4 |
|||
GSE4204 Road engineering |
4 |
|||
GSE4205 Design of steel structures |
4 |
|||
GSE4703 Artificial intelligence in practice |
4 |
|||
Electrical engineering field |
||||
GSE4301 Electrical power engineering II |
4 |
|||
GSE4302 Power electronics |
4 |
|||
GSE4303 Control systems |
4 |
|||
GSE4703 Artificial intelligence in practice |
4 |
|||
Mechanical engineering field |
||||
GSE4401 Energy and heat transfer |
4 |
|||
GSE4402 Vibration and acoustics |
4 |
|||
GSE4403 Industrial robotic systems |
4 |
|||
GSE4703 Artificial intelligence in practice |
4 |
|||
Information engineering field |
||||
GSE4703 Artificial intelligence in practice |
4 |
|||
GSE4705 Industrial supervisory software |
4 |
|||
Elective subjects (two subjects determined by other discipline choice) |
8 |
|||
Total: 48 cp |
Requirements
for the degree in interdisciplinary engineering
The student requires 192 credit points for the degree.
Course in materials engineering(available at Clayton campus only) |
||||
Level 2 |
Core subjects |
|||
MTE2501 Structure of engineering materials 1 |
6 |
|||
MTE2502 Structure of engineering materials 2 |
4 |
|||
MTE2503 Phase equilibria and microstructure |
6 |
|||
MTE2504 Thermomechanical analysis |
4 |
|||
MTE2505 Polymer morphology and structure |
4 |
|||
MTE2506 Materials selection and manufacture |
4 |
|||
MTE2521 Techniques in materials engineering 1 |
4 |
|||
MTE2522 Techniques in materials engineering 2 |
4 |
|||
MAT2911 Mathematical methods with applications I |
4 |
|||
MAT2912 Mathematical methods with applications II |
4 |
|||
MEC2414 Engineering practices: drafting or MEC1414 Engineering practices: drafting (if not taken in first year) or otherwise one 4 cp elective subject |
4 |
|||
Total: 48 cp |
||||
Level 3 |
Core subjects |
|||
MTE3502 Physical metallurgy |
4 |
|||
MTE3503 Engineering practice I |
4 |
|||
MTE3504 Mechanical properties of polymers |
4 |
|||
MTE3505 Fracture and fracture mechanics |
4 |
|||
MTE3506 Plasticity and metal shaping I |
4 |
|||
MTE3507 Ceramics |
4 |
|||
MTE3508 Electrical and magnetic materials |
4 |
|||
MTE3509 Polymer processing |
4 |
|||
MTE3510 Surface engineering |
6 |
|||
MTE3511 Mechanical behaviour of metals and alloys |
4 |
|||
Interfaculty elective subject |
6 |
|||
Total: 48 cp |
||||
Level 4 |
Core subjects |
|||
MTE4521 Engineering practice 2 |
4 |
|||
MTE4522 Engineering design |
6 |
|||
MTE4525 Project 1 |
4 |
Level 3 |
||
MTE4526 Project 2 |
6 |
|||
MTE4560 Polymer engineering |
4 |
|||
MTE4561 Metallurgical engineering |
4 |
|||
MTE4562 Ceramics engineering |
4 |
|||
Elective subjects (total of 16 cp required) |
16 |
|||
MTE4531 Advanced experimental techniques |
3 |
|||
MTE4532 Numerical modelling |
3 |
|||
MTE4533 Alloy design |
3 |
|||
MTE4534 Oriented and foamed polymers |
3 |
|||
MTE4536 Steel and its processing |
3 |
|||
MTE4538 Optoelectronic materials |
3 |
|||
MTE4539 Biomaterials |
3 |
|||
MTE4540 Cement and concrete |
3 |
|||
MTE4542 New materials applications |
3 |
|||
MTE4545 Refractories |
3 |
|||
MTE4546 Glass and glass ceramics |
3 |
|||
MTE4550 Special elective I |
3 |
|||
MTE4551 Special elective II |
3 |
|||
MTE4552 Liquid crystaline systems |
3 |
|||
MTE4553 Electrical and optical properties of polymers |
3 |
|||
MTE4554 Thermosetting polymers and elastomers |
3 |
|||
ENG4611 Schools technology studies project |
3 |
|||
Students may also choose up to six credit points of elective subjects at a suitable level from departments other than Materials Engineering, subject to the approval of the head, Department of Materials Engineering. |
||||
Total: 48 cp |
Requirements
for the degree in materials engineering (for students commencing in 1997 or
earlier)
The student requires a minimum of 188 credit points for the degree. The core
consists of forty credit points at level one, forty-four credit points at level
two, forty-eight credit points at level three and thirty-five credit points at
level four, totalling 167 credit points. A four credit-point level-one and a
four credit-point level-two elective subject must be completed, and a minimum
of fifteen credit points must be obtained from the electives at level four.
Requirements for the degree in materials engineering (for students
commencing in 1998 or later)
The student requires 192 credit points for the degree. The core consists of
forty-eight credit points at level-one, forty-eight credit points at level two,
forty-eight credit points at level three and thirty-two core credit points at
level four with sixteen credit points of electives at level-four.
Course in mechanical engineering(level 2 available at Caulfield campus, levels 2 - 4 available at Clayton and Sunway campuses only) |
||||
Level 2 |
Core subjects |
|||
ECE2300 Electrical engineering |
4 |
|||
MEC2414 Engineering practices: drafting or MEC1414 Engineering practices: drafting (if not taken in first year) or otherwise one 4 cp elective subject (for example, a level-three subject) |
4 |
|||
MEC2420 Engineering practices: design process |
4 |
|||
MEC2430 Fluid mechanics (if not taken in first year) or otherwise one 4 cp elective subject |
4 |
|||
MEC2440 Applied mechanics |
4 |
|||
MEC2450 Engineering practices: design of machine elements |
4 |
|||
MEC2460 Mechanical design: materials selection |
4 |
|||
MEC2470 Mechanics of solids |
4 |
|||
MEC2480 Thermodynamics |
4 |
|||
MEC2490 Computer programming |
4 |
|||
MAT2901 Multivariable calculus for engineering |
4 |
|||
MAT2902 Linear algebra and differential equations for engineering |
4 |
|||
Total: 48 cp |
||||
Level 3 |
Core subjects |
|||
MEC3401 Fundamentals of heat transfer |
4 |
|||
MEC3403 Engineering practices: machine design |
6 |
|||
MEC3404 Engineering practices: design management |
4 |
|||
MEC3406 Mechanical vibrations |
4 |
|||
MEC3408 Mechanics and deformation of solids |
4 |
|||
MEC3421 Engineering thermodynamics |
4 |
|||
MEC3462 Systems and control |
6 |
ECE2300 | ||
MEC3465 Fluid mechanics |
6 |
|||
MEC3469 Computer-assisted engineering |
6 |
|||
MEC3494 Statistical analysis of mechanical systems |
4 |
|||
Total: 48 cp |
||||
Level 4 |
Core subjects |
|||
MEC4401 Engineering practices: project thesis A |
4 |
|||
MEC4402 Engineering practices: project thesis B |
8 |
|||
MEC4403 Technology and society |
4 |
|||
MEC4424 Engineering practices: industrial innovation |
2 |
|||
Plus one management elective subject from those listed below (group B approved interfaculty list) |
6 |
|||
AFC2140 Business finance |
||||
AFC2170 Capital markets and financial institutions |
||||
ECC3880 Social issues |
||||
MGC1020 Introduction to management: managing organisations |
||||
MGC1030 Introduction to management: people and organisations |
||||
MGC2230 Organisational behaviour |
||||
MGC2240 Organisation and management |
||||
MGC2310 Public management |
||||
MGC2410 Industrial relations |
||||
TBC2110 Business law |
||||
Plus four approved 6 cp electives from each stream |
24 |
|||
Stream subjects: Select four subjects from each stream |
||||
Fluids/Energy |
||||
Design |
||||
Mechatronics |
||||
General |
||||
Select any four subjects from the above streams. |
||||
Total: 48 cp |
Requirements
for the degree in mechanical engineering
The student requires 192 credit points for the degree.
Course in mechatronics engineering(available at the Gippsland and Sunway campuses only) |
||||
Level 2 |
Core subjects |
|||
GSE2002 Engineering design and computer-aided drawing |
4 |
|||
GSE2201 Structural mechanics |
4 |
|||
GSE2302 Analog electronic devices |
4 |
|||
GSE2303 Digital electronics I |
4 |
|||
GSE2402 Applied mechanics |
4 |
|||
GSE2701 Engineering computer techniques |
4 |
|||
GSE2703 Engineering mathematical analysis |
4 |
|||
GSE2800 Project and practice |
4 |
|||
GSE2801 Measurement and computer instrumentation |
4 |
|||
GSE2802 Fluid and pneumatic control |
4 |
|||
GSE2803 Mechatronics design |
4 |
|||
GSE2804 Electrical and electronic drives |
4 |
|||
Total: 48 cp |
||||
Level 3 |
Core subjects |
|||
GSE3000 Industrial experience |
0 |
|||
GSE3003 Engineering project management |
4 |
|||
GSE3402 Mechanical design |
4 |
|||
GSE3403 Mechanics of materials |
4 |
|||
GSE3701 Engineering computer applications |
4 |
|||
GSE3800 Mechatronics project |
6 |
|||
GSE3801 Sensors and artificial perception |
4 |
|||
GSE3802 Digital systems |
4 |
|||
GSE3803 System dynamics and control |
6 |
|||
GSE3804 Production engineering |
4 |
|||
GSE4403 Industrial robotic systems |
4 |
|||
GSE4703 Artifical intelligence in practice |
4 |
|||
Total: 48 cp |
||||
Level 4 |
Core subjects |
|||
GSE3002 Sustainable development |
4 |
|||
GSE3405 Computer-integrated manufacturing |
4 |
|||
GSE3406 Maintenance and asset management |
4 |
|||
GSE4000 Engineering project |
12 |
|||
GSE4702 Digital imaging |
4 |
|||
GSE4801 Intelligent mechanisms design |
6 |
|||
GSE4802 Product to market |
4 |
|||
GSE4803 Computer systems (general and distributed) |
6 |
|||
GSE4804 Interactive modelling |
4 |
|||
Total: 48 cp |
Requirements
for the degree in mechatronics engineering
The student requires 192 credit points for the degree.
Subjects relating to the four specialisations
Bachelor of Engineering (civil and computing)
Bachelor of Engineering (electrical and computing)*
Bachelor of Engineering (industrial and computing)
Bachelor of Engineering (mechanical and computing)
NB These courses are only available for current Caulfield students
completing the final two years of their degrees. All students from 1998 onwards
will be undertaking the new Bachelor of Engineering course.
*Please note that students undertaking the final two years of the electrical
and computing degree will be required to complete their studies at the Clayton
campus.
Level |
Subject |
Credit points |
Prerequisites |
Corequisites |
BE (civil and computing) course(for completing Caulfield students only) |
||||
Level 3 |
Core subjects |
|||
CIV3244 Groundwater, seepage and environmental geoengineering |
3 |
CVE2111 |
||
CIV3245 Geoengineering geology |
3 |
CVE2111 |
||
CVE3111 Hydraulics A |
5 |
CVE2111 |
||
CVE3121 Structural engineering 3 |
3 |
CVE2122 |
||
CVE3122 Structural engineering 4 |
4 |
|||
CVE3131 Timber engineering |
2 |
CVE2122 |
||
CVE3146 Geoengineering: stability and settlement |
4 |
|||
CVE3162 Hydrology |
4 |
|||
CVE3173 Public health engineering |
2 |
|||
CVE3182 Infrastructure systems engineering |
3 |
|||
ENC3001 Computer applications 5 |
4 |
ENC2403 |
||
ENC3012 Computer applications 6C |
4 |
|||
ENC3311 Engineering management B |
3 |
MAC2901 |
||
ENC3411 Industrial project 1C |
2 |
Must have completed 36 cp level-2 and 48 cp level-1 subjects |
||
ENC3412 Industrial project 2C |
2 |
|||
Level 4 |
Core subjects |
|||
CVE4111 Civil engineering design 1 |
4 |
|||
CVE4112 Civil engineering design 2 |
4 |
|||
CVE4121 Structural engineering 5 |
3 |
CVE3012 |
||
CVE4122 Structural engineering 6 |
3 |
|||
CVE4181 Traffic engineering and planning |
5 |
|||
CVE4182 Municipal and highway engineering |
5 |
|||
ENC4012 Computer applications 7C |
4 |
|||
ENC4303 Engineering management D |
4 |
|||
ENC4411 Industrial project 3C |
4 |
|||
ENC4412 Industrial project 4C |
4 |
|||
Elective subjects |
||||
Select any two (normally one per semester): |
||||
CES4642 Geophysics II |
5 |
|||
CIV4214 Civil engineering computing applications |
5 |
|||
CIV4230 Theory of structures 4A |
5 |
|||
CIV4231 Theory of structures 4B |
5 |
|||
CIV4249 Foundation engineering |
5 |
|||
CIV4265 Hydraulic engineering |
5 |
|||
CIV4266 Public health engineering |
5 |
|||
CIV4267 Hydrology and water resources |
5 |
|||
CIV4283 Transport planning |
5 |
|||
CIV4284 Transport systems |
5 |
|||
CME4617 Finite element method (civil engineering) |
5 |
|||
ENC4055 Computer applications 8 |
4 |
|||
or any other relevant subject approved by the head of department or nominee. |
Requirements
for the Bachelor of Engineering (civil and computing)
The student requires 192 points for the degree. All students are required to
attend two one-week engineering field camps during the later part of the
course. All students are required to obtain a minimum of twelve weeks approved
industrial experience during their course.
BE (electrical and computing) course(for completing Caulfield students only) |
||||
Level 3 |
Core subjects |
|||
ELE3231 Control systems 1 |
4 |
MAC2912 |
||
ELE3232 Control systems 2 |
4 |
|||
ELE3241 Fields in communications |
4 |
MAC2912 |
||
ELE3242 Electronic communications |
4 |
ELE2262 MAC2912 |
||
ELE3251 Energy systems 1 |
4 |
ELE2252 |
||
ELE3252 Energy systems 2 |
4 |
ELE2252 |
||
ELE3261 Electronics 3 |
3 |
ELE2262 |
||
ELE3262 Electronics 4 |
3 |
|||
ENC3001 Computer applications 5 |
4 |
ENC2403 |
||
ENC3022 Computer applications 6E |
4 |
ENC2422 |
||
ENC3311 Engineering management B |
3 |
MAC2901 |
||
ENC3312 Engineering management C |
3 |
MAC2901 |
||
ENC3421 Industrial project 1E |
2 |
|||
ENC3422 Industrial project 2E |
2 |
|||
Level 4 |
Core subjects |
|||
ENC4022 Computer applications 7E |
4 |
|||
ENC4303 Engineering management D |
4 |
|||
ENC4421 Industrial project 3E |
4 |
as approved by supervisor |
||
ENC4422 Industrial project 4E |
4 |
as approved by supervisor |
||
Elective subjects |
||||
Select one of: |
||||
ELE4091 Advanced electrical design |
4 |
|||
ELE4291 Advanced electronic design |
4 |
|||
Select one of: |
||||
ELE4092 Radio frequency design |
4 |
|||
ELE4292 VLSI Design |
4 |
|||
Select six of the following (three per semester): |
||||
ELE4222 Biomedical engineering |
4 |
|||
ELE4231 Computer control 1 |
4 |
|||
ELE4232 Computer control 2 |
4 |
|||
ELE4241 Communications systems 1 |
4 |
|||
ELE4242 Communications systems 2 |
4 |
|||
ELE4251 Advanced energy systems 1 |
4 |
|||
ELE4252 Advanced energy systems 2 |
4 |
|||
ELE4261 Power electronics 1 |
4 |
|||
ELE4262 Power electronics 2 |
4 |
|||
ELE4271 Computer communications 1 |
4 |
|||
ELE4272 Computer communications 2 |
4 |
|||
ELE4281 Signal processing |
4 |
MAC2901 |
||
ELE4282 Digital signal processing |
4 |
MAC2901 |
||
ENC4025 Computer applications 8E |
4 |
|||
or any other relevant subject approved by the head of department or nominee. |
Requirements
for the Bachelor of Engineering (electrical and computing)
The student requires 192 points for the degree. All students are required to
obtain a minimum of twelve weeks approved industrial experience during their
course.
BE (industrial and computing) course(for completing Caulfield students only) |
||||
Level 3 |
Core subjects |
|||
ENC3001 Computer applications 5 |
4 |
ENC2403 |
||
ENC3032 Computer applications 6I |
4 |
|||
ENC3311 Engineering management B |
3 |
MAC2901 |
||
ENC3312 Engineering management C |
3 |
MAC2901 |
||
ENC3431 Industrial project 1I |
2 |
at least 12 cp in other level-3 subjects | ||
ENC3432 Industrial project 2I |
2 |
|||
IND3311 Facilities, planning and design |
4 |
|||
IND3312 Quality systems and control |
4 |
|||
IND3321 Design for production 1 |
4 |
MEE2352 |
||
IND3322 Design for production 2 |
4 |
|||
IND3722 Engineering accounting A |
4 |
|||
MEE3341 Engineering materials 1 |
3 |
ENC2332, ENC2342 |
||
MEE3342 Engineering materials 2 |
3 |
ENC2332, ENC2342 |
||
MEE3491 Process control |
4 |
MAC2912 |
||
Level 4 |
Core subjects |
|||
ENC4031 Computer applications 7I |
4 |
|||
ENC4303 Engineering management D |
4 |
|||
ENC4431 Industrial project 3I |
4 |
at least 12 cp in other level-4 subjects | ||
ENC4432 Industrial project 4I |
4 |
|||
IND4311 Production planning and control |
4 |
|||
IND4312 Design of productive systems |
4 |
|||
IND4321 Operations research 1 |
4 |
|||
IND4322 Operations research 2 |
4 |
|||
IND4361 Health, safety and environment |
4 |
|||
IND4722 Engineering accounting B |
4 |
|||
Elective subjects |
||||
Select any two (normally one per semester): |
||||
ENC4055 Computer applications 8 |
4 |
|||
ENC4365 Fluid systems and management |
4 |
MEE2382, or CVE2111 |
||
IND4335 Computer-aided manufacturing |
4 |
|||
IND4345 Systems reliability |
4 |
|||
IND4355 Automation and manufacturing systems |
4 |
|||
or any other relevant subject approved by the head of department or nominee. |
Requirements
for the Bachelor of Engineering (industrial and computing)
The student requires 192 points for the degree. All students are required to
obtain a minimum of twelve weeks approved industrial experience during their
course.
BE (mechanical & computing) course(for completing Caulfield students only) |
||||
Level 3 |
Core subjects |
|||
ENC3001 Computer applications 5 |
4 |
ENC2403 |
||
ENC3042 Computer applications 6M |
4 |
|||
ENC3311 Engineering management B |
3 |
MAC2901 |
||
ENC3312 Engineering management C |
3 |
MAC2901 |
||
ENC3441 Industrial project 1M |
2 |
at least 12 cp in other level-3 subjects | ||
ENC3442 Industrial project 2M |
2 |
|||
MEE3321 Mechanics of machines 2 |
4 |
MEE2321 |
||
MEE3332 Mechanics of solids 2 |
4 |
MEE2331 |
||
MEE3341 Engineering materials 1 |
3 |
ENC2332, ENC2342 |
||
MEE3342 Engineering materials 2 |
3 |
ENC2332, ENC2342 |
||
MEE3361 Fluid mechanics |
4 |
MEE2382 |
||
MEE3362 Thermodynamics 1 |
4 |
MEE2382 |
||
MEE3372 Mechanical engineering design 2 |
4 |
MEE2312 |
||
MEE3491 Process control |
4 |
MAC2912 |
||
Level 4 |
Core subjects |
|||
ENC4041 Computer applications 7M |
4 |
|||
ENC4303 Engineering management D |
4 |
|||
ENC4441 Industrial project 3M |
4 |
at least 12 cp in other level-4 subjects | ||
ENC4442 Industrial project 4M |
4 |
|||
MEE4311 Mechanical engineering design 3 |
4 |
|||
MEE4312 Mechanical engineering design 4 |
4 |
|||
MEE4322 Mechanics of machines 3 |
4 |
|||
MEE4331 Mechanics of solids 3 |
4 |
|||
MEE4361 Thermodynamics 2 |
4 |
|||
MEE4362 Thermodynamics 3 |
4 |
|||
Elective subjects |
||||
Select any two (normally one per semester): |
||||
ENC4055 Computer applications 8 |
4 |
|||
ENC4365 Fluid systems and management |
4 |
MEE2382 or CVE2111 |
||
IND4335 Computer-aided manufacturing |
4 |
|||
IND4355 Automation and manufacturing systems |
4 |
|||
MEE4375 Lubrication and wear |
4 |
|||
or any other relevant subject approved by the head of department or nominee. |
Requirements
for the Bachelor of Engineering (mechanical and computing)
The student requires 192 points for the degree. All students are required to
obtain a minimum of twelve weeks approved industrial experience during their
course.
BEng - On-campus mode (available to continuing Gippsland students only)
Level |
Subject |
Credit points |
Prerequisites |
Corequisites |
BEng - civil engineering (Gippsland)(only levels three and four are available in 1999 to continuing students only). |
||||
In the civil engineering degree course students are academically equipped to work as professional civil engineers. Particular areas of specialisation include structures, water engineering, environmental engineering, geotechnical engineering and transport planning. |
||||
Level 3 |
GEG3000 Industrial experience |
0 |
||
GEG3913 Energy and the environment (or approved elective) |
4 |
Admission to BEng |
||
GEG3104 Engineering project management |
6 |
Completion of level 2 |
||
GEG3133 Engineering computer applications |
5 |
GEG1123 or GEG1133, GEG1132, GAS1641, GAS1642, GAS2741 |
||
GEG3303 Structural engineering II |
5 |
|||
GEG3313 Structural engineering III |
4 |
|||
GEG3323 Soil mechanics I |
5 |
|||
GEG3333 Road engineering |
5 |
|||
GEG3343 Public health engineering |
4 |
|||
GEG3353 Engineering construction |
5 |
|||
GEG4··4 Transdisciplinary elective |
6 |
|||
Level 4 |
GEG4008 Engineering project |
12 |
Completion of level 3 |
|
GEG4104 Engineering management |
6 |
Completion of level 2 |
||
GEG4··4 Transdisciplinary elective |
6 |
|||
Four options to be chosen from: |
||||
GEG2394 Mining technology1 |
6 |
|||
GEG3394 Mineral processing1 |
6 |
|||
GEG4304 Structural engineering IV2 |
6 |
|||
GEG4314 Structural engineering V2 |
6 |
|||
GEG4324 Geomechanics II2 |
6 |
|||
GEG4334 Traffic engineering2 |
6 |
|||
GEG4344 Hydrology2 |
6 |
|||
1These subjects to be available if required by mining degree students (transferring to University of Ballarat) |
||||
2Four optional subjects to be offered in any one year from those listed (selection to be based on resources available, and a student poll) |
||||
Level 3& 4 |
Transdisciplinary
electives* |
|||
GEG4034 Environmental engineering |
6 |
Completion of level 2 |
||
GEG4054 Digital imaging |
6 |
GEG1132 |
||
GEG4074 Finite element applications |
6 |
|||
GEG4084 Robotic systems |
6 |
Completion of level 2 |
||
GEG4114 Instrumentation systems |
6 |
GEG2113 |
||
GEG4044 Terotechnology |
6 |
Completion of level 2 |
Requirements
for the degree in civil engineering
The student requires 192 credit points to complete the degree.
BEng electronic and computer engineering (Gippsland)(only levels three and four are available to continuing students only). |
||||
In the electronic and computer engineering degree course students are academically equipped to work as professional electronic or computer engineers. Particular areas of specialisation are analog electronics, digital electronics and computer hardware including computer communications and networking, computer software including operating systems and software engineering. |
||||
Level 3 |
GEG3000 Industrial experience |
0 |
||
GEG3104 Engineering project management |
6 |
Completion of level2 |
||
GEG3133 Engineering computer applications |
5 |
GEG1123 or GEG1133, GEG1132, GAS1641, GAS1642, GAS2741 |
||
GEG3523 Analog electronicsII |
4 |
|||
GEG3533 Digital electronics and computersII |
5 |
|||
GEG3553 Power electronics |
4 |
|||
GEG3564 Computer systems engineeringI |
6 |
|||
GEG44 Approved engineering elective |
6 |
|||
GCO1813 Information systemsI |
6 |
|||
GBU1001 Introductory accountingA |
6 |
Admission to BEng |
||
Level 4 |
GEG4008 Engineering project |
12 |
Completion of level3 |
|
GEG4104 Engineering management |
6 |
Completion of level2 |
||
GEG4524 Communication systems |
6 |
|||
GEG4564 Computer systems engineeringII |
6 |
|||
GEG44 Approved engineering elective |
6 |
|||
GCO2814 Operating systems |
6 |
|||
GCO3811 Software engineering |
6 |
|||
Recommended elective subjects (if available) |
||||
GEG4034 Environmental engineering |
6 |
Completion of level 2 |
||
GEG4054 Digital imaging |
6 |
Completion of level2 |
||
GEG4084 Robotic systems |
6 |
Completion of level2 |
||
GEG4114 Instrumentation systems |
6 |
GEG2113 |
||
GCO3814 Human computer interaction |
6 |
|||
GCO3815 Artificial intelligence |
6 |
GCE3811 | ||
GCO3851 Data base management systems |
6 |
Requirements
for the degree in electronic and computer engineering
The student requires 192 credit points to complete the degree.
BEng mechanical engineering (Gippsland)(only levels three and four are available to continuing students only) |
||||
In the mechanical engineering degree course students are academically equipped to work as professional mechanical engineers. Particular areas of specialisation include thermodynamics, engineering design and machinery applications. |
||||
Level 3 |
GEG3000 Industrial experience |
0 |
||
GEG3913 Energy and the environment (or approved elective) |
4 |
Admission to BEng |
||
GEG3104 Engineering project management |
6 |
Completion of level2 |
||
GEG3133 Engineering computer applications |
5 |
GEG1123 or GEG1133, GEG1132, GAS1641, GAS1642, GAS2741 |
||
GEG3703 Mechanical designIII |
5 |
|||
GEG3713 Engineering materials and manufacturing processes |
4 |
|||
GEG3723 Mechanics of materials |
4 |
|||
GEG3733 ThermodynamicsIII |
5 |
|||
GEG3743 Fluid mechanicsII |
4 |
|||
GEG3763 Vibration and noise control |
5 |
|||
GEG44 Transdisciplinary elective |
6 |
|||
Level 4 |
GEG4008 Engineering project |
12 |
Completion of level3 |
|
GEG4104 Engineering management |
6 |
Completion of level2 |
||
GEG4154 Control systems |
6 |
|||
GEG44 Transdisciplinary elective |
6 |
|||
Three options to be chosen from: |
||||
GEG4604 Mechanical designIV |
6 |
|||
GEG4614 Computer integrated manufacture |
6 |
GEG1102, GEG1123 |
||
GEG4624 Rotodynamic machines |
6 |
|||
GEG4654 Combustion and heat transfer |
6 |
|||
Level 3 & 4 |
Transdisciplinary electives |
|||
GEG4034 Environmental engineering |
6 |
Completion of level2 |
||
GEG4054 Digital imaging |
6 |
GEG1132 |
||
GEG4074 Finite element applications |
6 |
|||
GEG4084 Robotic systems |
6 |
Completion of level2 |
||
GEG4114 Instrumentation systems |
6 |
GEG2113 |
||
GEG4044 Terotechnology |
6 |
Completion of level2 |
Requirements
for the degree in mechanical engineering
The student requires 192 credit points to complete the degree.
BEng electro-mechanical engineering (Gippsland)(only levels three and four are available for continuing students only) |
||||
In the electro-mechanical degree course students are academically equipped to work as professional engineers in either electrical or mechanical engineering plant. A wide variety of final year options allows the student to tailor the course to their interests. |
||||
Level 3 |
GEG3000 Industrial experience |
0 |
||
GEG3913 Energy and the environment (or approved elective) |
4 |
Admission to BEng |
||
GEG3104 Engineering project management |
6 |
Completion of level2 |
||
GEG3133 Engineering computer applications |
5 |
GEG1123 or GEG1133, GEG1132, GAS1641, GAS1642, GAS2741 |
||
GEG3503 Electrical designIII1 |
4 |
|||
GEG3513 Electrical machines1 |
5 |
|||
GEG3523 Analog electronicsII1 |
4 |
|||
GEG3533 Digital electronics and computersII1 |
5 |
|||
GEG3553 Power electronics1 |
5 |
|||
GEG3563 Computer systems engineeringI1 |
4 |
|||
GEG3703 Mechanical designIII1 |
4 |
|||
GEG3713 Engineering materials and manufacturing processes1 |
5 |
|||
GEG3723 Mechanics of materials1 |
4 |
|||
GEG3733 ThermodynamicsIII1 |
4 |
|||
GEG3743 Fluid mechanicsII1 |
5 |
|||
GEG3763 Vibration and noise control1 |
5 |
|||
1 Select ten subjects over levels 3 and 4 |
||||
Level 4 |
GEG4008 Engineering project |
12 |
Completion of level3 |
|
GEG4104 Engineering management |
6 |
Completion of level2 |
||
GEG4154 Control systems |
6 |
|||
GEG4504 Power systems2 |
6 |
GEG2513, GAS2641 |
||
GEG4524 Communication systems2 |
6 |
|||
GEG4554 Industrial power applications2 |
6 |
GEG3413, GEG3453 |
||
GEG4564 Computer systems engineeringII2 |
6 |
|||
GEG4604 Mechanical designIV2 |
6 |
|||
GEG4614 Computer integrated manufacture2 |
6 |
GEG1102, GEG1123 |
||
GEG4624 Rotodynamic machines2 |
6 |
|||
GEG4654 Combustion and heat transfer2 |
6 |
|||
GEG44 Transdisciplinary elective |
6 |
|||
2 Select one electrical or one mechanical option |
||||
Level 3 & 4 |
Transdisciplinary electives |
|||
GEG4034 Environmental engineering |
6 |
Completion of level2 |
||
GEG4044 Terotechnology |
6 |
Completion of level 2 |
||
GEG4054 Digital imaging |
6 |
GEG1132 |
||
GEG4074 Finite element applications |
6 |
|||
GEG4084 Robotic systems |
6 |
Completion of level2 |
||
GEG4114 Instrumentation systems |
6 |
GEG2113 |
Requirements
for the degree in electro-mechanical engineering
The student requires 192 credit points to complete the degree.
wwwdev@monash.edu.au
Tue Jul 13 11:18:30 EST 1999