Overview
The Master of Engineering Science enables students with appropriate undergraduate qualifications to undertake more advanced study in engineering.
The Master of Engineering Science program provides students with the opportunity to acquire high level understanding and advanced analytical skills in the key areas that span the engineering disciplines and the management … For more content click the Read More button below.
Learning Outcomes
1.
demonstrate interdisciplinary knowledge and skills and an ability to apply those in a range of engineering contexts.
- Professionals
- Scholars
2.
communicate effectively to a range of audiences and be capable of independent and collaborative inquiry, working effectively with others.
- Scholars
3.
demonstrate the application of knowledge and skills with high level personal autonomy and accountability.
- Professionals
4.
demonstrate advanced critical thinking and problem solving skills, particularly as applied to the knowledge areas of engineering in a range of system development contexts.
- Scholars
5.
demonstrate an awareness of international issues as they relate to engineering in a range of engineering contexts.
- Global citizens
6.
demonstrate the application of knowledge and skills with creativity and initiative in new situations in the engineering of systems.
- Leaders
- Scholars
7.
demonstrate the application of knowledge and skills to plan and execute a substantial research-based project or piece of scholarship associated with the knowledge areas of engineering in a range of development contexts.
- Scholars
- Professionals
Program Structure
Students must complete 48 UOC when taken as a standalone program.
Prescribed Electives48 Units of Credit:
Enrolment Disclaimer
Please note that this Handbook is a comprehensive catalogue of our offerings and includes courses that can be taken to satisfy program requirements irrespective as to their availability for a particular year. Availability of courses is best checked using filters on this site or on the class timetable site.
You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
Admission Requirements
Entry Requirements
Minimum Entry Requirements
Program Requirements
Progression Requirements
For more information on university policy on progression requirements please visit Academic Progression
Associated Programs
Similar Program
Master of Systems Engineering - MSysEng8567 - Systems Engineering
Postgraduate Pathway
Doctor of Philosophy - PhD1620 - Systems Engineering
Doctor of Philosophy - PhD1643 - Electrical Engineering
Doctor of Philosophy - PhD1663 - Aerospace Engineering
Doctor of Systems Engineering - DSysEng1741 - Systems Engineering
Doctor of Information Technology - ITD1743 - Information Technology
Master of Philosophy - MPhil2227 - Aerospace, Civil & Mech Eng
Master of Philosophy - MPhil2228 - Info Tech & Electrical Eng
Master of Engineering (Research) - ME(Res)2663 - Electrical Engineering (MRes)
Master of Engineering (Research) - ME(Res)2693 - Aerospace Engineering (MRes)
Program Fees
At UNSW fees are generally charged at course level and therefore dependent upon individual enrolment and other factors such as student's residency status. For generic information on fees and additional expenses of UNSW programs, click on one of the following:
Pre-2019 Handbook Editions
Access past handbook editions (2018 and prior)