| START & DEADLINE TERM | DEADLINE APPLICATION | |
|---|---|---|
| Spring-September 31-July-2021 | 31-July-2021 |
|
| Summer-February 30-November-2021 | 30-November-2021 |
|
| Fall-May 31-March-2022 | 31-March-2022 |
|
| Spring-September 31-July-2022 | 31-July-2022 |
|
For students seeking specialised engineering knowledge as well as in-depth understanding of computer science, this five-year double degree will meet those ambitions and open the way to a variety of professional opportunities.
The Engineering component will provide you with a solid background in mathematics, natural sciences and computing to give you knowledge and skills in whichever engineering specialisation you choose.
The Computer Science component emphasises comprehension of the basic principles behind computing tools, operating systems, compilers and translators, and computer hardware.
You will study the representation of data and data structures and the design of algorithms, as well as the creation of hardware and software tools and the role of non-computing elements in the design and development process.
The progress of nanotechnology allows the fabrication of devices whose physical dimensions approach the atomic scale.
For over 100 years, it has been known that the behaviour of physical systems at the atomic scale does not obey the familiar laws of classical physics.
Atomic-size systems behave according to quantum mechanics, which allows them to exhibit rather spectacular properties and dynamics.
This stream trains students to design and operate devices that behave according to quantum mechanics, opening the possibility to exploit the peculiar laws of quantum physics to perform otherwise cumbersome or impossible tasks, such as:
The efficient solution of computationally hard problems, or the secure teleportation of information.
Graduates from this stream will have valuable skills that position them ideally for the burgeoning quantum engineering industry, as well as broad skills across most key electrical engineering disciplines.
Industrial Experience Requirement
Students must complete a minimum of 60 days of Industrial Training to graduate. Industrial Training must be undertaken concurrently with enrolment in the program.
$63,516
$8,688
$7,068
$47,760
Assumed Knowledge:
Mathematics Extension 1, Physics
India:
All India Senior School Certificate (CBSE) 14.5
Indian School Certificate (CISCE) 88
India State Board 93
China:
China (Peoples Republic) National Entrance Examination (Gaokao) 75
Iran:
UNSW does not accept secondary qualifications from this country. It may accepts tertiary study results.
Pathways:
UNSW Global has university pathway programs that provide seamless transition to UNSW Sydney so you can achieve your academic and career goals.
1- Official Final Secondary School Results
2- Official Academic Transcripts
3- Proof of Completion undergraduate Degree (if applicable)
4- English Test Results
5- Visa/Passport
6- Genuine Temporary Entrant
When applying for a cross-faculty double degree, the higher English requirements apply.
If you do not currently meet the English language requirements of your chosen program, UNSW Global offers courses and programs designed to help you reach these requirements.
Different options are available depending on your current English language level.
English courses at UNSW Global include Academic English (English for University), Professional English, General English as well as test preparation courses.
English language courses are available at various levels and lengths and may be packaged with a UNSW Foundation Studies Program, UNSW Diploma Program or a UNSW Degree.
University English Entry Course (UEEC)
University English Entry Course (UEEC) prepares you for entry into university if you’ve received a conditional offer from UNSW Sydney but do not meet the UNSW English entry requirements.
Essential Academic English (EAE)
Essential Academic English (EAE) provides you with the English skills you need to thrive at university. It prepares you for University English and Foundation English courses.
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