Master Of Philosophy - Information Technology

University of New South Wales - UNSW

Add To Compare

Get Consult

Masters Degrees

Qualification

1.5 Years

Course duration

5/31/2025

Start Date

US$27679

Fee

Description
Requierments
Study options

Overview The Master of Philosophy (MPhil) is designed to provide an opportunity for students to develop research competence in a limited timeframe. The program duration is 1.5 years full-time or 3 years part-time. The minimum length of candidature is 1 year and the maximum length is 2 years. Program structure The Master of Philosophy (MPhil) consists of an examinable coursework component and thesis comprising 72 Units of Credit: A program of advanced study, comprising 18-24 Units of Credit of coursework makes up the remainder of the program. The coursework component will normally comprise three or four courses selected from the Coursework Masters offering for the relevant discipline and approved by the Head of School. Candidates may undertake interdisciplinary studies subject to approval. A thesis embodies the result of an original investigation, design or engineering development. The thesis shall not exceed more than 40,000 words on an approved topic to the value of 48 - 54 units of credit.

For international students

The minimum requirement for admission to a Master of Philosophy is an appropriate Bachelor degree in the relevant discipline from UNSW or a qualification considered equivalent from another university or tertiary institution at a level acceptable to the UNSW Canberra Higher Degree Committee, usually at Honours level. In exceptional cases, an applicant who submits evidence of such other academic and professional qualifications as may be approved by the Higher Degree Committee may be permitted to enrol for the degree. If the Higher Degree Committee is not satisfied with the qualifications submitted by an applicant, the applicant may be required to undergo such assessment or carry out such work as the Higher Degree Committee may prescribe, before permitting enrolment. In addition to these academic requirements, the Head of School must certify that there is an appropriate supervisor available for the proposed research program and that the necessary facilities and resources required to successfully complete the research are available. English Language Requirements: IELTS: 6.5 overall (min. 6.0 in each subtest); TOEFL IBT (Internet Based): 90 overall (min. 23 in writing, 22 in reading, listening and speaking); Pearson (PTE - Academic): 64 overall (min. 54 in each subtest); C1 Advanced Cambridge: 176 overall (min. 169 in each subtest); C2 Proficiency Cambridge: 180 overall (min. 180 in each subtest); UNSW Global University English Entry Course (UEEC): Successful completion with a minimum overall grade of C+ and a minimum grade of C in the writing component.

1.5 Years - Full time

Fee

A$42,000.00 (US$ 27,679) per yearPlease check with institution

Start Date

5/31/2025

Address

Canberra Campus, Australian Defence Force Academy, Northcott Drive, Canberra, Australian Capital Territory, 2600, Canberra Central, Australia

About

Concrete, which is made using industrial waste from steel manufacturing and coal-fired power stations, is being used in a trial in the roads of Sydney for the first time in the world.

UNSW Sydney researchers and the CRCLCL, CRC for Low Carbon Living will use these trial results to create industry guidelines for the very first set of geopolymer concrete.

“While we’ll monitor the road performance for up to five years, a lot of the data collected in the first three to 12 months of this world-first trial will be used to confirm our models and strengthen our predictions. Concrete contributes 7% of all greenhouse gas emissions and in 2018 the world produced about 4.1 billion tonnes of cement, which contributed about 3.5 billion tonnes of CO2. Alternative, low-CO2 concrete materials offer potential benefits in reducing the greenhouse gas emissions associated with conventional concrete. This trial is important because we need demonstration projects to accurately assess the performance of geopolymer over time so that there can be broader uptake,” said Craig Heidrich, executive director of Australian (Iron and Steel) Association and Ash Development Association.

According to the associate professor of sustainability research at UNSW, Dr Tommy Wiedmann, if all concrete produced was geopolymer in place of traditional concrete for one year - 12,000 kilotons of carbon di oxide would be saved.

More info