As noted in the introduction to the `Outline of undergraduate studies', subject to university approval, the faculty intends to replace the degree programs previously offered at Caulfield, Clayton and Gippsland with a single Bachelor of Engineering degree to be offered in a variety of streams across three campuses. The first level of the new degree, common to all streams of engineering, commences in 1998 as outlined below in this handbook. Again, subject to approval, the second level of the new degree will be introduced in 1999. All students admitted to candidature for a Bachelor of Engineering degree in 1998 will automatically be transferred to streams of the new degree at the end of that year.
Level
|
Subject
|
Credit
points |
Prerequisites
|
Corequisites
| |
| Level
1
|
Core
subjects
|
||||
| ENG1101
Chemical engineering
|
4
|
||||
| ENG1201
Civil engineering
|
4
|
||||
| ENG1301
Electrical engineering
|
4
|
ENG1902
| |||
| 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
| ||
| ENG1902
Engineering mathematics B
|
4
|
VCE
Specialist Mathematics or ENG1901
|
|||
| Subtotal:
36 cp
|
|||||
| 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
|
|||||
| 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
| ||
| MEC1411
Spatial visualisation
|
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
|
||||
| MEC2414
Engineering practices: drafting
|
4
|
||||
| MEC2430
Fluid mechanics
|
4
|
VCE
Specialist Mathematics or ENG1901
|
|||
| Total:
48 cp
|
Level
|
Subject
|
Credit
points
|
Prerequisites
|
Corequisites
|
| Level
2
|
Core
subjects
|
|||
| CHE2100
Momentum transfer I
|
4
|
CHE1110
or ENG1101
|
||
| CHE2110
Analysis of chemical processing systems I
|
3
|
CHE1110
or ENG1101
|
||
| CHE2111
Analysis of chemical processing systems II
|
3
|
CHE2110
|
||
| CHE2120
Thermodynamics I
|
4
|
CHE1110
or ENG1101
|
||
| CHE2140
Chemical engineering
|
3
|
CHE1110
or ENG1101
|
||
| CHE2150
Chemical engineering practice I
|
3
|
CHE1110
or ENG1101
|
||
| CHE2160
Chemical engineering practice II
|
3
|
CHE1110
or ENG1101
|
||
| CHE2170
Chemical engineering communication
|
3
|
|||
| CHM2711
Chemistry III
|
6
|
CHM1710
or ENG1701, CHM1722 or ENG1702
|
||
| MAT2910
Engineering mathematics III
|
3
|
MAT1920
or ENG1902
|
||
| MAT2920
Engineering mathematics IV
|
3
|
MAT1920
or ENG1902
|
||
| MAT2930
Numerical methods
|
3
|
MAT1920
or ENG1902
|
||
| Elective
subjects (one subject required)
|
||||
| CHM2722
Chemistry electives
|
4
|
CHM1710
or ENG1701, CHM1722 or ENG1702
|
||
| ECS2300
Electrical engineering
|
4
|
ECS1310
or ENG1301
|
||
| Any
other engineering subject to the value of four credit points as applicable.
|
||||
| Level
3
|
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
|
CHE2100
|
||
| CHE3107
Process control
|
4
|
MAT2920,
CHE2111
|
||
| CHE3108
Process design and operation I
|
3
|
CHE2100,
CHE2111, CHE2120, CHE2140
|
||
| CHE3109
Process design and operation II
|
3
|
CHE3108
|
||
| CHE3111
Transport phenomena I
|
3
|
CHE2100,
MAT2910, MAT2920
|
||
| CHE3112
Transport phenomena II
|
3
|
CHE3111
|
||
| CHE3113
Thermodynamics II
|
3
|
CHE2120
|
||
| CHE3114
Thermodynamics and electrochemistry
|
3
|
CHE3113
|
||
| CHE3117
Introduction to process simulation
|
3
|
CHE2111,
CHE3102, CHE3113
|
||
| CHE3118
Chemical engineering practice III
|
3
|
CHE2100,
CHE2111, CHE2140, CHE2150, CHE2160, MAT2930
|
||
| CHE3119
Chemical engineering practice IV
|
3
|
CHE3118
|
||
| MAT3910
Integral transforms and calculus of variations
|
3
|
MAT2910
or ENG1901, MAT2920 or ENG1902
|
||
| MAT3920
Statistical methods
|
3
|
MAT2910
or ENG1901
|
||
| Level
4
|
Core
subjects
|
|||
| CHE4102
Reaction engineering II
|
3
|
CHE3101
|
||
| CHE4109
Process design and operation III
|
4
|
CHE3108,
CHE3109
|
||
| CHE4110
Process simulation and control
|
4
|
CHE3107
|
||
| CHE4112
Environmental engineering
|
4
|
CHE3101,
CHE3103, CHE3104
|
||
| CHE4114
Management I
|
3
|
CHE3108,
CHE3109
|
||
| CHE4115
Management II
|
3
|
|||
| CHE4117
Design project
|
10
|
CHE3102,
CHE3103, CHE3104, CHE3114, CHE4102, CHE4109, CHE4110, CHE4114
|
||
| Level
4
|
Elective
subjects
|
|||
| A
total of fifteen credit points must be selected from the level 2, level 3 and
level 4 offerings listed below. These subjects will be taken during level 4.
|
||||
| MTE2540
Materials science and engineering
|
4
|
MTE1510
or ENG1501
|
||
| ENG4611
Schools technology studies project
|
3
or 6
|
|||
| CHE3121
Biological processes
|
3
|
|||
| CHE4116
Chemical engineering lab project*
|
6
|
CHE3119
|
||
| CHE4118
Chemical engineering research project*
|
9
|
|||
| CHE4131
Mineral processing
|
3
|
CHE3104
|
||
| CHE4132
Biochemical engineering
|
3
|
CHE3121
|
||
| CHE4134
Polymer process engineering
|
3
|
CHE3111,
CHE3112
|
||
| CHE4141
Extractive metallurgy
|
3
|
CHE3114
|
||
| CHE4142
Pulp and paper technology
|
3
|
|||
| CHE4143
Selected topics in heat and mass transfer
|
3
|
CHE3102,
CHE3103, CHE3104
|
||
| CHE4144
Selected topics in thermodynamics
|
3
|
CHE3114
|
||
| CHE4145
Selected topics in dynamic simulation and control
|
3
|
CHE4110
|
||
| CHE4146
Process analysis
|
3
|
|||
| CHE4147
Selected topics in transport phenomena
|
3
|
CHE3112
|
||
| CHE4148
Interfacial phenomena
|
3
|
|||
| CHE4149
Food engineering
|
3
|
|||
| CHE4150
Applied mathematics in chemical engineering
|
3
|
MAT3910,
MAT3920
|
||
| Interfaculty
subject
|
6
|
|||
| *Only
one of CHE4116.06 or CHE4118.09 may be taken.
|
||||
| Note
that not all electives will be offered in any one year.
|
||||
| Requirements
for the degree in chemical engineering The student requires 188 credit points for the degree.
|
||||
|
Level 2
|
Core
subjects
|
|||
| CIV2201
Civil engineering practice 2
|
6
|
|||
| CIV2220
Surveying
|
4
|
|||
| CIV2221
Stress and structural analysis
|
4
|
CIV1210
or ENG1201
|
||
| CIV2250
Civil engineering computing
|
4
|
ECS1610
or ENG1602
|
||
| CIV2260
Design of structures
|
4
|
CIV1210
or ENG1201
|
||
| CIV2271
Introduction to geoengineering
|
3
|
|||
| MEC2430
Fluid mechanics
|
4
|
MAT1920
or ENG1902
|
||
| MTE2540
Materials science and engineering
|
4
|
MTE1510
or ENG1501
|
||
| MAT2930
Numerical methods
|
3
|
MAT1920
or ENG1902
|
||
| MAT2941
Civil engineering mathematics
|
4
|
MAT1920
or ENG1902
|
||
| MAT2952
Statistical methods
|
4
|
MAT2941
|
||
| Level
3
|
Core
subjects
|
|||
| CIV3202
Civil engineering practice 3
|
4
|
CIV2201
or CIV2240
|
||
| 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
|
MEC2430
|
||
| CIV3262
Public health engineering
|
3
|
|||
| CIV3263
Hydrology
|
3
|
MAT3920
| ||
| CIV3281
Transport and traffic engineering
|
3
|
CIV2250
|
MAT3920
| |
| Level
4
|
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
|
CIV3203
|
||
| CIV4232
Timber, masonry and building technology
|
3
|
CIV1210
or ENG1201
|
||
| CIV4233
Concrete technology
|
3
|
CIV2260
|
||
| CIV4282
Highway engineering
|
4
|
CIV3281
|
||
| 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
|
CIV3229
|
||
| CIV4231
Theory of structures 4B
|
5
|
CIV3228,
CIV3230
|
||
| CIV4248
Geoengineering hazards
|
5
|
CIV3244
|
||
| CIV4249
Foundation engineering
|
5
|
CIV3244,
CIV3245 and CIV3246
|
||
| CIV4265
Hydraulic engineering
|
5
|
CIV3261
|
||
| CIV4266
Public health engineering
|
5
|
CIV3262
|
||
| CIV4267
Hydrology and water resources
|
5
|
CIV3263
|
||
| CIV4283
Transport planning
|
5
|
CIV3281
|
||
| CIV4284
Transport systems
|
5
|
CIV3281
|
||
| 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%
|
||
| Requirements
for the degree in civil engineering
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.
|
||||
| Note
that for some subjects not less than a Pass Division I grade must be obtained
to satisfy a prerequisite and, where this is required, P1 appears immediately
after the subject number in the prerequisites column.
|
||||
| Level
2
|
Core
subjects
|
|||
| ECS2310
Circuit theory I
|
4
|
ECS1310
P1 or ENG1301 P1, PHS1810 or ENG1802, PHS1820 P1 or ENG1803 P1, MAT1920 or
ENG1603
|
ECS2320,
MAT2910
| |
| ECS2320
Electromagnetic theory I
|
3
|
ECS2310
| ||
| ECS2340
Telecommunications
|
2
|
ECS2310
|
||
| ECS2350
Electrical energy I
|
4
|
ECS2310,
ECS2320
|
||
| ECS2360
Electronics and control systems I
|
5
|
ECS2310,
PHS2081
|
MAT2920
| |
| ECS2370
Computer systems engineering I
|
4
|
ECS1610
P1 or ENG1602 P1
|
ECS2310
| |
| ECS2380
Computer systems engineering II
|
3
|
ECS2370
|
||
| ECS2390
Management I
|
3
|
|||
| MEC2440
Applied mechanics
|
4
|
MEC1410
or ENG1401, PHS1810 or ENG1801, MAT1920 or ENG1603
|
||
| PHS2081
Physics III
|
3
|
PHS1810
or ENG1802, PHS1820 or ENG1803
|
ECS2310
| |
| MAT2910
Engineering mathematics III
|
3
|
MAT1920
or ENG1603
|
||
| MAT2920
Engineering mathematics IV
|
3
|
MAT1920
or ENG1603
|
||
| MAT2930
Numerical methods
|
3
|
MAT1920
or ENG1603
|
||
| Elective
subjects (one subject required)
|
||||
| CHE2120
Thermodynamics
|
4
|
CHE1110
or ENG1101
|
||
| MTE2550
Materials science and engineering
|
4
|
MTE1510
or ENG1501
|
ECS2310
| |
| Note
that the subject ECS2300.04 (Electrical engineering) may not be taken by
electrical and computer systems engineering students.
|
||||
| Levels
3 & 4
|
Levels
three and four of the course in electrical and computer systems engineering are
divided into the following three streams: 1 Computer systems 2 Electrical and electronic systems 3 Telecommunications
Within each stream there are three categories of subjects: `stream core
subjects,' which are mandatory, `stream elective subjects,' from which the
student must select a minimum number, and `free elective subjects,' which
include any subjects not previously taken by the student and at an appropriate
level within the departmental list of subjects or from another engineering
department or from another faculty. Subject choices must be approved by the
head of the department, and prerequisites and corequisites must be satisfied.
Subject choices will be further limited by timetable clashes. All level-three
subjects are listed below with prerequisites and corequisites, followed by a
list of subjects to be taken in each stream. A similar pattern is used for
level-four subjects and streams.
|
|||
| Level
3
|
Level-three
subjects
|
|||
| ECS3311
Circuit theory II
|
2
|
ECS2310
|
MAT3910
| |
| ECS3312
Circuit theory III
|
3
|
ECS3311
|
||
| ECS3321
Electromagnetic theory II
|
4
|
ECS2310,
ECS2320 P1
|
MAT3910
| |
| ECS3331
Control systems II
|
3
|
ECS2360
|
ECS3311
| |
| ECS3341
Information transmission
|
4
|
ECS2340
P1, MAT3910
|
ECS3312,
MAT3920
| |
| ECS3342
Switching and signalling
|
4
|
ECS2340
P1
|
||
| ECS3343
Computer communications
|
3
|
ECS3371
| ||
| ECS3351
Electrical energy II
|
4
|
ECS2350
P1
|
ECS3311
| |
| ECS3361
Small-signal amplifiers
|
4
|
ECS3311,
ECS3331, ECS3362
|
||
| ECS3362
Large-signal circuits
|
4
|
ECS2360
PI
|
ECS3311
| |
| ECS3363
Introduction to VLSI systems
|
3
|
ECS3371
|
||
| ECS3371
Computer systems engineering III
|
4
|
ECS2370
P1
|
||
| ECS3372
Advanced computer architectures
|
3
|
ECS3371
|
ECS3381
| |
| 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
|
ECS3351,
ECS3361
|
||
| ECS3392
Management II
|
3
|
|||
| MAT3910
Integral transforms and calculus of variations
|
3
|
MAT2910,
MAT2920
|
||
| MAT3920
Statistical methods
|
3
|
MAT2910
|
||
| Level
3
|
Level-three
streams
|
|||
| Computer
systems Core: ECS3311.02, ECS3312.03, ECS3321.04, ECS3331.03, ECS3343.03*, ECS3361.04, ECS3362.04, ECS3371.04, ECS3381.04, ECS3392.03, MAT3910.03, MAT3920.03 *Not available to BSc/BE students who have taken CSC3182. Another elective must be selected.
Electives: (at least 8 cp required) ECS3341.04, ECS3342.04, ECS3363.03,
ECS3372.03, ECS3382.03, ECS3383.03.
|
||||
| Electrical
and electronic systems
Core: ECS3311.02, ECS3312.03, ECS3321.04, ECS3331.03, ECS3341.04,
ECS3351.04, ECS3361.04, ECS3362.04, ECS3371.04, ECS3381.04, ECS3391.03,
ECS3392.03, MAT3910.03, MAT3920.03
|
||||
| Telecommunications Core: ECS3311.02, ECS3312.03, ECS3321.04, ECS3331.03, ECS3341.04, ECS3342.04, ECS3343.03*, ECS3361.04, ECS3362.04, ECS3371.04, ECS3381.04, ECS3392.03, MAT3910.03, MAT3920.03
*Not available to BSc/BE students who have taken CSC3182. Another elective must
be selected.
|
||||
| Level
4
|
Level-four
subjects
|
|||
| ECS4301
Special elective
|
3
|
|||
| ECS4313
Signal processing
|
4
|
ECS3312,
MAT3910
|
||
| ECS4314
Photonic signal processing
|
3
|
Level
three substantially complete
|
||
| ECS4322
Microwave and mobile radio systems
|
3
|
ECS3321
|
||
| ECS4323
Advanced optical communication systems
|
3
|
Level
three substantially complete
|
||
| ECS4332
Modern control systems
|
4
|
ECS3311,
ECS3331
|
ECS3312
| |
| ECS4333
Advanced control systems
|
3
|
ECS4332,
ECS3312
|
||
| ECS4344
Digital transmission and optical systems
|
4
|
ECS3341
|
||
| ECS4345
Mobile systems and network design
|
3
|
ECS3321,
MAT3920
|
ECS4322
| |
| ECS4346
Communication protocol engineering
|
3
|
ECS3343
|
||
| ECS4347
Telecommunications network performance
|
3
|
ECS3342
|
||
| ECS4348
Software engineering for telecommunications
|
3
|
ECS2380
|
||
| ECS4349
Video coding for telecommunications
|
3
|
ECS4313
|
||
| ECS4353
Electrical energy systems I
|
4
|
ECS2350
|
||
| ECS4354
Electrical energy conversion
|
4
|
ECS3351
|
||
| ECS4355
High voltage systems
|
3
|
ECS2320
|
||
| ECS4356
Advanced power systems
|
3
|
ECS4353
|
||
| ECS4357
Power electronics applications
|
3
|
ECS3351
|
||
| ECS4358
Electrical energy systems II
|
3
|
ECS3351
|
||
| ECS4359
Basic reliability engineering
|
3
|
MAT2920
|
||
| ECS4364
Feedback amplifiers
|
4
|
ECS3312,
ECS3331, ECS3362
|
||
| ECS4365
Advanced electron and photon devices
|
4
|
ECS2360
|
||
| ECS4366
Bioengineering instrumentation
|
3
|
CHM1710
or ENG1702, ECS3312, ECS3362
|
||
| ECS4367
Electronic systems and components
|
4
|
ECS3362
|
||
| ECS4368
Electroacoustics
|
3
|
ECS3312,
ECS3362
|
||
| ECS4373
Computer systems engineering V
|
4
|
ECS3381
|
||
| ECS4374
Computer systems design
|
3
|
ECS4373
|
||
| ECS4378
Neural computing
|
3
|
Level
two substantially complete
|
||
| ECS4379
Object-oriented programming and C++
|
3
|
ECS2380
|
||
| ECS4385
Computational methods
|
3
|
ECS3321,
MAT3910
|
||
| 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
4
|
Level-four
streams
|
|||
| Computer
systems Core: ECS4367.04, ECS4373.04, ECS4393.03, and one of ECS4394.09, ECS4398.09, ECS4395.12, ECS4399.12 Electives: (at least 30 cp over both levels three and four) ECS3341.04*, ECS3342.04*, ECS3363.03*, ECS3372.03*, ECS3382.03*, ECS3383.03*, ECS4313.04, ECS4332.04, ECS4333.03, ECS4344.04, ECS4374.03, ECS4378.03, ECS4379.03, ECS4385.03, ECS4387.03 *Available also at level three.
Free electives: (6/3 cp required).
|
||||
| Electrical
and electronic systems Core: ECS4332.04, ECS4353.04, ECS4367.04, ECS4393.03, either ECS4313.04 or ECS4354.04, and one of ECS4394.09, ECS4398.09, ECS4395.12, ECS4399.12 Electives: (at least 14 cp required) Subjects from level three or level four of electrical and computer systems engineering not otherwise taken.
Free electives: (6/3 cp required)
|
||||
| Telecommunications Core: ECS4313.04, ECS4322.03, ECS4344.04, ECS4373.04, ECS4393.03, and one of ECS4394.09, ECS4398.09, ECS4395.12, ECS4399.12 Electives: (at least 15 cp required) ECS4314.03, ECS4323.03, ECS4332.04, ECS4345.03, ECS4346.03, ECS4347.03, ECS4348.03, ECS4349.03, ECS4359.03, ECS4367.04, ECS4374.03, ECS4379.03, ECS4385.03 Free electives: (6/3 cp required)
Higher cp if 9-cp project chosen, lower if 12-cp project
|
||||
| Requirements
for the degree in electrical and computer systems engineering
The student requires 188 credit points for the degree.
|
||||
| Level
2
|
Core
subjects
|
|||
| ECS2390
Management I
|
3
|
|||
| MEC2410
Engineering practices: drafting
|
3
|
|||
| MTE2511
Structure of engineering materials I
|
5
|
MTE2520
| ||
| MTE2512
Structure of engineering materials II
|
5
|
MTE2520
|
||
| MTE2513
Modelling and experimental measurement
|
2
|
|||
| MTE2514
Thermomechanical analysis
|
4
|
|||
| MTE2520
Phase transformations
|
5
|
|||
| MTE2530
Polymer morphology and structure
|
5
|
MTE1510
or ENG1501
|
||
| MTE2580
Materials selection and manufacturing
|
3
|
MTE1510
or ENG1501
|
||
| MAT2910
Engineering mathematics III
|
3
|
MAT1920
or ENG1603
|
||
| MAT2920
Engineering mathematics IV
|
3
|
MAT1920
or ENG1603
|
||
| MAT2930
Numerical methods
|
3
|
MAT1920
or ENG1603
|
||
| Students
will be required to take one out of the following three subjects:
|
||||
| CHE2120
Thermodynamics
|
4
|
CHE1110
or ENG1101
|
||
| ECS2300
Electrical engineering
|
4
|
ECS1310
or ENG1301
|
||
| MEC2430
Fluid mechanics
|
4
|
VCE
Specialist Mathematics or ENG1901
|
||
| Level
3
|
Core
subjects
|
|||
| Interfaculty
subject(s) (one or more to the value of 6 cp)
|
6
|
|||
| MTE3502
Physical metallurgy
|
4
|
MTE2511,
MTE2512
|
||
| MTE3503
Engineering practice I
|
4
|
ECS2390
|
||
| MTE3504
Mechanical properties of polymers
|
4
|
MTE2530
| ||
| MTE3505
Fracture and fracture mechanics
|
4
|
MTE2514
|
||
| MTE3506
Plasticity and metal shaping I
|
4
|
MTE2514
|
||
| MTE3507
Ceramics
|
4
|
|||
| MTE3508
Electrical and magnetic materials
|
4
|
MTE3502
| ||
| MTE3509
Polymer rheology and processing
|
4
|
|||
| MTE3510
Surfaces
|
6
|
MTE2520
|
||
| MTE3511
Mechanical behaviour of metals and alloys
|
4
|
MTE2511,
MTE2512
|
||
| Level
4
|
Core
subjects
|
|||
| MTE4521
Engineering practice II
|
4
|
MTE3503
|
||
| MTE4522
Engineering design
|
6
|
|||
| MTE4525
Project I
|
4
|
120
cp or permission of head
|
||
| MTE4526
Project II
|
6
|
MTE4525
(except double degree students)
|
||
| MTE4560
Polymer engineering
|
5
|
MTE3504,
MTE3509
|
||
| MTE4561
Metallurgical engineering
|
5
|
MTE3502,
MTE3506
|
||
| MTE4562
Ceramics engineering
|
5
|
MTE3507
|
||
| Level
4
|
Elective
subjects (total of 15 cp required)
|
|||
| MTE4531
Advanced experimental techniques
|
3
|
|||
| MTE4532
Numerical modelling
|
3
|
MTE3506
|
||
| MTE4533
Alloy design
|
3
|
MTE3502
|
||
| MTE4534
Oriented and foamed polymers
|
3
|
MTE3504
|
||
| MTE4536
Steel and its processing
|
3
|
MTE3505,
MTE3506
|
||
| MTE4538
Optoelectronic materials
|
3
|
MTE3508
|
||
| MTE4539
Biomaterials
|
3
|
|||
| MTE4540
Cement and concrete
|
3
|
MTE3507
| ||
| MTE4542
New materials applications
|
3
|
|||
| MTE4545
Refractories
|
3
|
MTE3507
|
||
| 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.
|
||||
| Requirements
for the degree in materials engineering
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.
|
||||
| Level
2
|
Core
subjects
|
|||
| CIV2221
Stress and structural analysis
|
4
|
CIV1210
or ENG1201
|
||
| ECS2300
Electrical engineering
|
4
|
ECS1310
or ENG1301
|
||
| MEC2410
Engineering practices: drafting
|
3
|
|||
| MEC2420
Engineering practices: design process
|
4
|
CIV1210
or ENG1201, MEC1410 or ENG1401
|
MEC2410
or MEC2414, MEC2440
| |
| MEC2430
Fluid mechanics
|
4
|
VCE
Specialist Mathematics or ENG1901
|
||
| MEC2440
Applied mechanics
|
4
|
MEC1410
or ENG1401, MAT1920 or ENG1902
|
||
| MEC2450
Engineering practices: design of machine elements
|
4
|
MEC2420
|
||
| MEC2480
Fundamentals of energy conversion
|
4
|
MAT1920
or ENG1902
|
||
| MEC2490
Computer programming
|
4
|
ECS1610
or ENG1602
|
||
| MTE2540
Materials science and engineering
|
4
|
MTE1510
or ENG1501
|
||
| MAT2910
Engineering mathematics III
|
3
|
MAT1920
or ENG1902
|
||
| MAT2920
Engineering mathematics IV
|
3
|
MAT1920
or ENG1902
|
||
| MAT2930
Numerical methods
|
3
|
MAT1920
or ENG1902
|
||
| Note
that at the completion of the first semester of level three the
course in mechanical engineering is divided into the following seven streams: 1
Fluids; 2 Energy; 3 Solids; 4 Design; 5 Mechatronics; 6 Manufacturing systems;
7 General. This streaming continues to the completion of the mechanical
engineering course.
|
||||
| Level
3
|
Core
subjects
|
|||
| MEC3401
Fundamentals of heat transfer
|
4
|
MEC2430,
MEC2480, MAT2910, MAT2920, MAT2930
|
MEC3405
| |
| MEC3402
Systems and control
|
4
|
ECS2300,
MEC2440
|
||
| MEC3403
Engineering practices: machine design
|
6
|
MEC2420,
MEC2440, MEC2450
|
||
| MEC3404
Engineering practices: design management
|
4
|
MEC3403
|
||
| MEC3405
Fluid mechanics
|
4
|
MEC2430,
MAT2910, MAT2920, MAT2930
|
||
| MEC3406
Mechanical vibrations
|
4
|
MEC2440,
MAT2910, MAT2920, MAT2930
|
||
| MEC3408
Deformation of solids
|
4
|
CIV2221
|
||
| MEC3409
Computer-assisted engineering
|
4
|
MEC2490
|
||
| MEC3491
Statistical analysis of mechanical systems
|
3
|
MAT2910
|
MAT3910
| |
| MAT3910
Integral transforms and calculus of variations
|
3
|
MAT2910,
MAT2920
|
||
| Level
3
|
Stream
subjects*
From one of the following streams, select the core subject and one of
the listed electives. All subjects are worth four credit points.
|
|||
| Fluids
|
||||
| Stream
core: MEC3442
|
||||
| Elective
(one only): MEC3421, MEC3450, MEC3490
|
||||
| Energy
|
||||
| Stream
core: MEC3421
|
||||
| Elective
(one only): MEC3442, MEC3450, MEC3490
|
||||
| Solids
|
||||
| Stream
core: MEC3490
|
||||
| Elective
(one only): MEC3421, MEC3442, MEC3450
|
||||
| Design
|
||||
| Stream
core: MEC3490
|
||||
| Elective
(one only): MEC3421, MEC3442, MEC3450
|
||||
| Mechatronics
|
||||
| Stream
core: MEC3450
|
||||
| Elective
(one only): MEC3421, MEC3442, MEC3490
|
||||
| Manufacturing
systems
|
||||
| Stream
core: MEC3490
|
||||
| Elective
(one only): MEC3421, MEC3442, MEC3450
|
||||
| General
|
||||
| Select
any two subjects from the above streams.
|
||||
| Level
4
|
Core
subjects
|
|||
| MEC4401
Engineering practices: project thesis A
|
4
|
MEC3404
|
MEC4402
| |
| MEC4402
Engineering practices: project thesis B
|
8
|
MEC3404,
MEC4401
|
||
| MEC4403
Technology and society
|
4
|
|||
| MEC4424
Engineering practices: industrial innovation
|
2
|
MEC3404
|
||
| Plus
one management elective subject from those listed below (group B approved
interfaculty list)
|
||||
| AFC2110
Business law
|
6
|
|||
| AFC2140
Business finance
|
6
|
|||
| AFC2170
Capital markets and financial institutions
|
6
|
|||
| ECC3880
Social issues
|
6
|
|||
| MGC1020
Introduction to management: managing organisations
|
6
|
|||
| MGC1030
Introduction to management: people and organisations
|
6
|
|||
| MGC2200
Marketing management I
|
6
|
|||
| MGC2230
Organisational behaviour
|
6
|
|||
| MGC2240
Organisation and management
|
6
|
|||
| MGC2310
Public management
|
6
|
|||
| MGC2410
Industrial relations
|
6
|
|||
| Level
4
|
Stream
subjects*
Select three stream core subjects and three other subjects from the
streams:
|
|||
| Fluids
|
||||
| Stream
core : MEC4430, MEC4432, MEC4441, MEC4443
|
||||
| Energy
|
||||
| Stream
core : MEC4413, MEC4414, MEC4431, MEC4435
|
||||
| Solids
|
||||
| Stream
core : MEC4436, MEC4438, MEC4440, CME4616
|
||||
| Design
|
||||
| Stream
core : MEC4422, MEC4433, MEC4439, MEC4453
|
||||
| Mechatronics
|
||||
| Stream
core : MEC4410, MEC4452, MEC4453, MEC4454
|
||||
| Manufacturing
systems
|
||||
| Stream
core : MEC4433, MEC4437, MEC4452, MEC4453
|
||||
| General
|
||||
| Select
any six subjects from the above streams.
|
||||
| *Note
that not all of the stream subjects will be offered each year.
|
||||
| Requirements
for the degree in mechanical engineering
The student requires 188 credit points for the degree.
|