Aeronautical Engineering stream
Aerospace Systems specialisation
Aerospace Systems specialisation |
|---|
| Students in the Aeronautical or Aeronautical (Space) stream must complete 18 credit points to achieve this specialisation. |
| Unit of study | Credit points | A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition |
|---|---|---|
| Students must complete a minimum of 12 credit points and a maximum of 18 credit points from the following: | ||
| AERO5200 Advanced Aerodynamics |
6 | A BE in the area of Aerospace Engineering or related Engineering field. AERO3260 or AERO8260 or AERO9260 or equivalent study at another institution P AERO3260 or AERO8260 or AERO9260 or equivalent study at another institution |
| AERO5206 Rotary Wing Aircraft |
6 | A Prior Learning: concepts from 3000 level Aerodynamics and Flight Mechanics will be applied to Rotary Wing Vehicles in this unit P (AERO3260 or AERO8260 or AERO9260) and (AERO3560 or AERO8560 or AERO9560) or equivalent study at another institution |
| AERO5400 Advanced Aircraft Design Analysis |
6 | A Undergraduate level 1, 2 and 3 or Foundation Masters units in Aerospace Design are expected to have been completed before undertaking this unit P [(AERO3260 or AERO8260 or AERO9260) and (AERO3460 or AERO8460 or AERO9460) and (AERO3560 or AERO8560 or AERO9560)] or equivalent study at another institution |
| AERO5500 Flight Test and Evaluation |
6 | A BE in area of Aerospace Engineering or related Engineering Field P AERO3560 or AERO8560 or AERO9560 |
| AERO5750 Unmanned Air Vehicle Systems |
6 | A AERO1560, AERO1400, AMME2700, (AERO2460 or AERO3460), AERO3560, AERO3260, AERO3261 and AERO4460 P [(AERO3260 or AERO8260 or AERO9260) and (AERO3360 or AERO8360 or AERO9360) and (AERO2460 or AERO3460 or AERO8460 or AERO9460) and (AERO3560 or AERO8560 or AERO9560)] or equivalent study at another institution |
| Students may complete a maximum of 6 credit points from the following: | ||
| AERO4260 Aerodynamics 2 |
6 | N AERO5260 P AMME2200 or AMME2261 |
| AERO4360 Aerospace Structures 2 |
6 | A AERO3465 N AERO5360 P AERO3360 |
| AERO4560 Flight Mechanics 2 |
6 | A AMME2500 develops the basic principles of engineering mechanics and system dynamics that underpin this course. AERO3560 Flight Mechanics 1 develops the specifics of aircraft flight dynamics and stability. AMME3500 Systems control covers basic system theory and control system synthesis techniques N AERO5560 P AERO3560 and AMME3500 |
| AERO4260, AERO4360 or AERO4560 may be taken within the specialisation in addition to the units taken as Core Extension. They may not count toward both requirements. | ||
