Faculty of Engineering |
Course: | Master of Professional Engineering (Aerospace) (2013) |
CP Required: | 144 |
Min FT Duration: | 3.00 Years |
Min PT Duration: | N/A |
Faculty/School: | Faculty of Engineering |
Years Offered: | 2024, 2023, 2022, 2021, 2020, 2019, 2018, 2017, 2016, 2015, 2014, 2013, 2012, 2011, 2010 |
Type | CP | CP From |
Core
|
6 |
AMME5302: Foundations of Materials 1 |
Core
|
6 |
AMME5500: Foundations of Engineering Dynamics |
Core
|
6 |
AMME5700: Foundations of Instrumentation |
Core
|
6 |
ENGG5801: Foundations of Engineering Computing |
Note: Year 1 covers foundation units only. Students with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation are exempt from these foundation units.
Type | CP | CP From |
Core
|
6 |
AMME5200: Foundations of Thermodynamics and Fluids |
Core
|
6 |
AMME5301: Foundations of Mechanics of Solids 1 |
Core
|
6 |
ENGG5802: Foundations of Engineering Mechanics |
Core
|
6 |
MECH5400: Foundations of Mechanical Design 1 |
Note: Year 1 covers foundation units only. Students with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation are exempt from these foundation units.
Type | CP | CP From |
Core
|
6 |
AERO5310: Foundations of Aerospace Structures |
Core
|
6 |
AERO5410: Foundations of Aerospace Design |
Core
|
6 |
AERO5510: Foundations of Flight Mechanics |
Core
|
6 |
AMME5501: Foundations of System Dynamics and Control |
Type | CP | CP From |
Core
|
6 |
AERO5210: Foundations of Aerodynamics |
Core
|
6 |
AERO5211: Foundations of Propulsion Systems |
12 |
Select from
Unit Block: Aerospace recommended electives |
Type | CP | CP From |
Core
|
6 |
AERO5301: Applied Finite Element Analysis |
Core
|
6 |
AMME5020: Capstone Project A Note: See Streams/Majors for full details. Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research pathway and may replace AMME5020 and 6cp of recommended electives with AMME5222 Dissertation A. |
Core
|
6 |
AMME5601: Professional Engineering |
Core
|
0 |
ENGG5217: Practical Experience |
6 |
Select from
Unit Block: Aerospace recommended electives |
Type | CP | CP From |
Core
|
6 |
AERO5400: Advanced Aircraft Design Analysis |
Core
|
6 |
AMME5021: Capstone Project B Note: See Streams/Majors for full details. Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research pathway and may replace AMME5021 and 6cp of recommended electives with AMME5223 Dissertation B. |
Core
|
6 |
ENGG5103: Safety Systems and Risk Analysis |
6 |
Select from
Unit Block: Aerospace recommended electives |
Type | CP | CP From |
Core
|
6 |
AMME5020: Capstone Project A |
Core
|
6 |
AMME5021: Capstone Project B |
Note: Capstone Project must be completed by all students, unless undertaking Research Pathway (conditions below). Capstone Project is normally completed across two semesters in two stages through AMME5020 (6cp) and AMME5021 (6cp). However, it may also be completed in a single semester (12 cp).
Type | CP | CP From |
Core
|
6 |
AMME5020: Capstone Project A |
Core
|
12 |
AMME5022: Capstone Project B Extended |
Note:
Students take Capstone Project units AMME5020 and AMME5022 (total 18 cp) in place of Capstone Project AMME5021 and 6 cp of elective units.
Students achieving an average mark of 70% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Extended Capstone Project.
Type | CP | CP From |
Core
|
12 |
AMME5222: Dissertation A |
Core
|
12 |
AMME5223: Dissertation B |
Note:
Research pathway students take Dissertation units AMME5222 and AMME5223 (total 24 cp) in place of Capstone Project units and 12 cp of elective units.
Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research Pathway.
Unit Code | Unit Name | CP | Sessions Offered |
AERO5010 | Optimisation Methods in Engineering | 6 |
Semester 2 |
AERO5200 | Advanced Aerodynamics | 6 |
Semester 1 |
AERO5500 | Flight Test and Evaluation | 6 |
Semester 2 |
AERO5520 | Aircraft Avionics and Systems [not running in 2020] | 6 |
Semester 1 Semester 2 |
AERO5700 | Space Engineering (Advanced) | 6 |
Semester 1 Semester 2 |
AERO5760 | Spacecraft and Satellite Design | 6 |
Semester 2 |
AMME5202 | Computational Fluid Dynamics | 6 |
Semester 1 |
AMME5310 | Engineering Tribology | 6 |
Semester 1 |
AMME5510 | Vibration and Acoustics | 6 |
Semester 2 |
ENGG5202 | Sustainable Design, Engineering & Management | 6 |
Semester 1 |
MECH5275 | Renewable Energy | 6 |
Semester 2 |
MECH5304 | Materials Failure | 6 |
Semester 2 |
MECH5305 | Smart Materials | 6 |
Semester 2 |
MECH5310 | Advanced Engineering Materials | 6 |
Semester 1 |