University of Sydney Handbooks - 2017 Archive

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Unit of study table

Unit of study Credit points A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition Session

Master of Engineering majoring in Mechanical Engineering

To qualify for the award of the Master of Engineering in this specialisation, a candidate must complete 72 credit points, including core and elective units of study as listed below.
Candidates with a Bachelor of Engineering Honours or equivalent in the relevant discipline, and who have reached the required level of academic achievement in their prior degree, may be eligible for a reduction of volume in learning of up to 24 credit points.

Core units

Candidates must complete 24 credit points of Core units.
Where Reduced Volume Learning has been granted candidates must complete a minimum of 12 credit points of Core units.
ENGG5102
Entrepreneurship for Engineers
6    A Some limited industry experience is preferred but not essential.
N ELEC5701
Semester 1
ENGG5202
Sustainable Design, Eng and Mgt
6    A General knowledge in science and calculus and understanding of basic principles of chemistry, physics and mechanics
Semester 1
ENGG5103
Safety Systems and Risk Analysis
6      Semester 2
PMGT5871
Project Process Planning and Control
6      Intensive December
Intensive July
Semester 1
Semester 2

Specialist units

Candidates must complete 24 credit points of Specialist units, but may take additional units as Electives.
Where Reduced Volume Learning has been granted candidates must complete a minimum of 24 credit points of Specialist units.
Exchange units may be taken as Specialist units with the approval of the Program Director.
AERO9301
Applied Finite Element Analysis
6    A BE in area of Aerospace Engineering or related Engineering field.
P AERO9360 or AERO5310 or MECH9361 or MECH5361
N AERO5301 OR AERO4360
Semester 1
AMME5101
Energy and the Environment
6    A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer
P MECH3260 OR MECH9260 OR AERO3261 OR AERO9261
Semester 1
AMME5202
Advanced Computational Fluid Dynamics
6    A Partial differential equations; Finite difference methods;Taylor series; Basic fluid mechanics including pressure, velocity, boundary layers, separated and recirculating flows. Basic computer programming skills.
Semester 1
AMME5271
Computational Nanotechnology
6    A The students will require an understanding of basic principles of Newtonian mechanics, physics and chemistry, fluid mechanics and solid mechanics. General knowledge of how to operate a computer and work with different software is also required.

Note: Department permission required for enrolment

Semester 2
AMME5310
Engineering Tribology
6    A (AMME2302 OR AMME9302) AND (AMME2301 OR AMME9301) AND (MECH3261 OR MECH9261)

Note: Department permission required for enrolment

Semester 1
AMME5510
Vibration and Acoustics
6    P (AMME2301 OR AMME9301) AND (AMME2200 OR AMME2261 OR AMME9261) AND (AMME2500 OR AMME9500)
Semester 2
AMME5902
Computer Aided Manufacturing
6      Semester 2
AMME5912
Crash Analysis and Design
6    A Computer Aided Drafting, Basic FEA principles and Solid Mechanics
Semester 1
MECH5255
Air Conditioning and Refrigeration
6    A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer.
P MECH3260 OR MECH9260 OR MECH5262
N MECH4255
Semester 2
MECH5265
Combustion
6    A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer.
P (MECH3260 AND MECH3261) OR MECH5262 OR MECH9260
Semester 2
MECH5275
Renewable Energy
6    A The students will require an understanding of the basic principles of fluid mechanics, thermodynamics and heat transfer, and the application of these principles to energy conversion systems. In particular, students should be able to analyse fluid flow in turbomachinery; perform first and second law thermodynamic analysis of energy conversion systems; and perform calculations of radiative, conductive and convective heat transfer.
P (MECH3260 AND MECH3261) OR (AERO3260 AND AERO3261) OR (MECH5262 AND MECH5261) OR (MECH9260 AND MECH9261) OR (AERO9260 AND AERO9261). Students claiming to have prerequisite knowledge based on study at other institutions must contact the unit of study coordinator before enrolling in this unit and may be required to sit a pre-exam to demonstrate that they have the necessary knowledge and skills to undertake this advanced level unit.

Note: Department permission required for enrolment

Semester 2
MECH5304
Materials Failure
6    A Fundamental knowledge in materials science and engineering: 1) atomic and crystal structures 2) metallurgy 3) structure-property relationship 4) mechanics of engineering materials 5) solid mechanics
P (AMME9301 OR AMME2301) AND (AMME9302 OR AMME2302 OR AMME1362) AND (MECH9361 OR MECH3361) AND (MECH9362 OR MECH5362)
Semester 2
MECH5305
Smart Materials
6    A Fundamental knowledge in materials science and engineering: 1) atomic and crystal structures 2) metallurgy 3) structure-property relationship 4) mechanics of engineering materials 5) solid mechanics
P (AMME9301 OR AMME5301 OR AMME2301) AND (AMME9302 OR AMME5302 OR AMME2302 OR AMME1362)
Semester 2
MECH5310
Advanced Engineering Materials
6    P (AMME2301 OR AMME9301) AND (AMME2302 OR AMME1362 OR AMME9302) AND (MECH3362 OR MECH9362)
N MECH4310
Semester 1
MECH5416
Advanced Design and Analysis
6    A ENGG1802 - Eng Mechanics, balance of forces and moments; AMME2301 - Mechanics of Solids, 2 and 3 dimensional stress and strain; AMME2500 - Engineering Dynamics - dynamic forces and moments; MECH2400 - Mechanical Design 1, approach to design problems and report writing, and preparation of engineering drawing; MECH3460 - Mechanical design 2, means of applying fatigue analysis to a wide range of machine components
P (AMME2301 OR AMME9301) AND (AMME2500 OR AMME9500) AND (MECH2400 OR MECH9400)
Semester 1
MECH5720
Sensors and Signals
6    A Strong MATLAB skills
N MECH4720
Semester 2
MTRX5700
Experimental Robotics
6    A Knowledge of statics and dynamics, rotation matrices, programming and some electronic and mechanical design experience is assumed.
P (AMME3500 OR AMME5501 OR AMME9501) AND MTRX3700.
Semester 1

Research units

All candidates are required to complete a minimum of 12 credit points from the following units:
AMME5020
Capstone Project A
6    P 96 cp from MPE degree program or 24 cp from the ME program (including any credit for previous study).
Semester 1
Semester 2
AMME5021
Capstone Project B
6    P 96 credit points from the MPE degree program (incuding any credit for prior study) or 24 credit points from the ME degree program (incuding any credit for prior study).
Semester 1
Semester 2
AMME5022
Capstone Project B Extended
12    P 42 credit points in the Master of Engineering and WAM >70, or 66 credit points in the Master of Professional Engineering and WAM >70 or exemption.

Note: Department permission required for enrolment

Semester 1
Semester 2
AMME5222
Dissertation A
12    N AMME5020 OR AMME5021 OR AMME5022

Note: Department permission required for enrolment
In order to enrol in a dissertation project, students must first secure an academic supervisor in an area that they are interested. Students must have acieved a WAM of 75% or greater in their prior year of study. The topic of your project must be determined in discussion with the supervisor.
Semester 1
Semester 2
AMME5223
Dissertation B
12    N AMME5020 OR AMME5021 OR AMME5022

Note: Department permission required for enrolment
In order to enrol in a dissertation project, students must first secure an academic supervisor in an area that they are interested. Students must have acieved a WAM of 75% or greater in their prior year of study. The topic of your project must be determined in discussion with the supervisor.
Semester 1
Semester 2
With permission from the Head of Department students progressing with distinction (75%) average or higher results may replace AMME5020, AMME5021 and 12 credit points of electives with AMME5222 & AMME5223, Dissertation A & B.
A candidate who has been granted RVL and who is eligible to undertake the extended capstone project or dissertation may be granted exemption of up to 12 credit points of specialist units.

Elective units

Candidates may complete a maximum of 12 credit points from the following units:
Specialist units may also be taken as Elective units. Other Postgraduate units in the Faculty may be taken as Elective units with the approval of the Program Director.
Electives may be approved for candidates who have been granted RVL with the approval of the Program Director.
AERO5200
Advanced Aerodynamics
6    A BE in the area of Aerospace Engineering or related Engineering field.
P AERO5210 or AERO9260 or AERO3260
Semester 2
AERO5400
Advanced Aircraft Design Analysis
6    A (AERO1400, AERO3260, AERO3261, AERO3360, AERO3465, AERO3560 and AERO4460) or equivalent.
P AERO3460 or AERO5410 or AERO9460
N AERO4491
Semester 2
AERO5500
Flight Mechanics Test and Evaluation Adv
6    A BE in area of Aerospace Engineering or related Engineering Field.
P AERO5510 OR AERO9560 OR AERO3560

Note: Department permission required for enrolment

Semester 1
Semester 2
AERO9760
Spacecraft and Satellite Design
6    N AERO5760
Semester 2
AMME5520
Advanced Control and Optimisation
6    A Students have an interest and a strong understanding of feedback control systems, specifically in the area of system modelling and control design in the frequency domain.
P AMME3500 OR AMME5501 OR AMME9501
Semester 1
AMME5951
Fundamentals of Neuromodulation
6    A ELEC1103 or equivalent, (MECH2901 OR AMME9901), and (MECH3921 or AMME5921)
Semester 1
AMME9961
Biomechanics and Biomaterials
6    A AMME9901 or 6 credit points of junior biology, 6 credit points of junior chemistry, 6 credit points of junior materials science, 6 credit points of engineering design, Chemistry, biology, materials engineering, and engineering design at least at the Junior level.
N AMME5961
Semester 2
AMME9971
Applied Tissue Engineering
6    A AMME9901 or 6 credit points of junior biology, 6 credit points of junior chemistry
P AMME9901 AND AMME5921
N AMME5971


The primary teaching delivery method will be lectures. This unit of study builds on the assumed knowledge of junior and intermediate biology and thus students will already have practical hands-on biological training. The purpose of this unit of study is to elaborate the theory and latest developments of this very new field of tissue engineering, thereby building on the existing practical and theoretical knowledge base the students have in cell biology.
Semester 1
AMME9981
Computational Biomedical Engineering
6    A AMME9301, AMME9302, AMME9500, and MECH9361.
N AMME5981


The primary teaching delivery method will be lectures. This unit of study builds on the assumed knowledge of engineering principles and junior and intermediate biology. The purpose of this unit of study is to prepare students for the challenges presented in taking innovative ideas and successfully converting them to valuable products.
Semester 1
AMME9990
Biomedical Engineering Technology 1
6    A Junior level chemistry, intermediate level biology, and specific knowledge of cell biology at least at the junior level, and preferably at the intermediate level.
N AMME5990


The primary teaching delivery method will be lectures. This unit of study builds on the assumed knowledge of engineering principles and junior and intermediate biology. The purpose of this unit of study is to prepare students for the challenges presented in taking innovative ideas and successfully converting them to valuable products.
Semester 1
ENGG5231
Engineering Graduate Exchange A
6      Intensive January
Intensive July
ENGG5232
Engineering Graduate Exchange B
6      Intensive January
Intensive July

For more information on degree program requirements visit CUSP (https://cusp.sydney.edu.au).