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Master of Engineering (Aerospace)
- Domestic
- International
About Degree
Chart a new course in aerospace engineering
Aerospace engineers push the boundaries of what is possible. They develop new technologies and materials for aeronautical, space and defence industries.
This intensive degree is suited to high-achieving engineering graduates, as well as engineers with relevant work experience. It is fully accredited by Engineers Australia.
What will you do?
Our Master of Engineering (Aerospace) comprises a foundation year and an advanced studies year. You will:
- take courses in space vehicle design.
- study applied aerodynamics and aeronautical engineering.
- build skills in business and project management.
- pursue specialist topics according to interests and career goals—from Aircraft Design to Fracture Mechanics.
- undertake a significant research project.
Where could it take you?
You could develop better combat droids, jet engines, or laser-guided weapons systems. You might be an aerospace technician or drafter. Perhaps you’ll plan, build and test robotic systems with artificial intelligence, or engineer the next generation of satellites.
Entry Requirements
Choose your applicant type to view the relevant admissions information for this program.I am a:
- Domestic
- International
Domestic applicants
SATAC Code | 3CM065 |
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Deferment | Yes - 2 year |
Intake | February and July |
Selection Criteria
Higher Education Study | A completed four-year Bachelor of Engineering degree or equivalent in a related discipline with a minimum GPA of 4.5. |
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Student Profile
Applicant background | Semester one/Full year intake 2022 | |
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Number of students | Percentage of all students | |
International students | 6 | 100.0% |
All students | 6 | 100.0% |
International applicants
CRICOS | 071199C |
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Intake | February and July |
Selection Criteria
English Language Requirements
Australian Year 12 | Successful completion of an Australian year 12 qualification with a minimum pass in an accepted English language subject | ||||||||||||
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English Tests accepted by the University of APSB |
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Qualifications that meet minimum English requirements | A range of alternative qualifications may meet the University’s minimum English requirements |
Academic Entry Requirements
Detailed information on international qualifications assessment
Tertiary Qualifications | A completed four-year Bachelor of Engineering degree or equivalent with a minimum GPA of 4.5 in the field of Mechanical, Mechatronic, Aerospace or Automotive Engineering |
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How to Apply
Student Profile
Applicant background | Semester one/Full year intake 2022 | |
---|---|---|
Number of students | Percentage of all students | |
International students | 6 | 100.0% |
All students | 6 | 100.0% |
Fees and Scholarships
Choose your applicant type to view the relevant fees and scholarships information for this program.I am a:
- Domestic
- International
Domestic applicants
Indicative annual tuition fees | Australian Full-fee place: $41,000 |
Where the standard duration of the program is less than one year the full cost of the program is displayed.
Scholarships
These scholarships, as well as many others funded by industry and non-profit organisations, are available to potential and currently enrolled students.
International applicants
Indicative annual tuition fees (24 units) | International student place: $48,500 |
Where the standard duration of the program is less than one year the full cost of the program is displayed.
More information on International Student tuition fees.
Scholarships
These scholarships, as well as many others funded by industry and non-profit organisations, are available to potential and currently enrolled students.
Careers
Career Readiness
Graduates are well prepared to pursue careers in the aerospace industry and other high-tech industries.
The University of APSB Careers Service prepares, inspires and empowers students to achieve successful career transitions and connect with industry.
Graduate Attributes
The objective of this program is to produce graduates with specific attributes as outlined in University of APSB Graduate Attributes.
- Deep discipline knowledge and intellectual breadth
- Creative and critical thinking, and problem solving
- Teamwork and communication skills
- Professionalism and leadership readiness
- Intercultural and ethical competency
- Australian Aboriginal and Torres Strait Islander cultural competency
- Digital capabilities
- Self-awareness and emotional intelligence
Professional Accreditation
The Master of Engineering (Aerospace) is fully accredited by Engineers Australia .
Potential careers
Manufacturing Engineer, Mechanical Engineer, Noise Control Engineer, Robotics Engineer, Aerospace Engineer, Aircraft Engineer, Instrumentation Engineer
Degree Structure
- 12 units of core courses;
- 12 units of foundation courses;
- 12 units of advanced technical coursework and;
- a project to the value of 12 units, which introduces candidates to research.
Graduates of a Bachelor of Engineering from the University of APSB or another institution whose program is equivalent to an AQF level 8 honours program and accredited under the Washington Accord will be eligible to be considered for credit—allowing them to complete the master's program in less than two years, with a minimum of one year of full-time study.
International students from non-English speaking backgrounds will be required to take an English language communications course as part of the program.
The availability of all courses is conditional on the availability of staff, facilities and sufficient enrolments.
Program Learning Outcomes
The learning outcomes for this program were informed by the University of APSB Graduate Attributes, Engineers Australia Stage 1 Competencies and the characteristics of the APSB Engineering graduate.Graduates of a Master of Engineering (Aerospace) will be able to:
- Employ highly developed oral and written communication skills to communicate complex information and present persuasive arguments.
- Exercise professional judgement, founded on a strong commitment to principles of continuing professional development, ethics, sustainability and social responsibility.
- Contribute pro-actively to the work of teams, both as a team member and a team leader, and maintain respectful, constructive and diverse team environments.
- Plan and manage resources using systematic methodologies to create solutions to complex engineering problems.
- Think critically and independently, apply logic and exercise judgement to create safe and sustainable outcomes.
- Apply in-depth knowledge of the principles and methods of research, and of the research directions in the nominated field of specialisation to devise innovative engineering solutions.
- Demonstrate comprehensive knowledge of the natural and physical sciences, and mathematical and computer sciences, which underpin the nominated field of specialisation.
- Apply an in-depth specialist body of knowledge and skills in the nominated field of specialisation.
- Create innovative solutions to complex socio-technical problems using the established engineering methods, tools and processes in the nominated field of specialisation.
Academic Program Rules
The Calendar is a comprehensive handbook of the University's academic program rules.
Example Study Plan
Core Courses Students must complete all of the following: |
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Foundation Students must complete all of the following: |
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Electives Students must choose two of the following (6 units): |
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Electives Students must also choose two of the following (6 units): |
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Research Project Students must complete all of the following: |
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Assessment
Assessment includes course and project work. All students are required to complete a minimum of 12 weeks of practical experience outside normal class time. Practical experience can be undertaken in Australia or overseas.
Students who have already completed equivalent practical experience that is deemed acceptable by the Faculty of Engineering, Computer and Mathematical Sciences may be given a partial or total exemption from this requirement.