国际学生入学条件
104 UCAS Tariff points from a minimum of 2 A Levels (or equivalent). The content of the course requires you to have a good level of maths knowledge so you should have an A Level (or equivalent) in Maths or a mathematical subject. Applicants who do not have A-level Maths (or equivalent) can still be considered for this course subject to passing a Maths test at ARU.
5 GCSEs at grade C, or grade 4, or above, including English, Maths and Science
If English is not your first language you will be expected to demonstrate a certificated level of proficiency of at least IELTS 6.0 (Academic level) or equivalent English Language qualification, as recognised by Anglia Ruskin University.
UCAS Tariff points acquired from BTEC Level 3 Diplomas are accepted.
International Baccalaureate Diploma with a minimum of 24 points is accepted.
UCAS Tariff Points from Access to HE Diplomas in a related subject are accepted.
UCAS Tariff points from Scottish Advanced Highers are accepted, related subjects are required.
UCAS Tariff points from Scottish Highers are accepted, related subjects are required.
UCAS Tariff points from the Irish Leaving Certificate are accepted, related subjects are required.
UCAS Tariff points acquired from the International Baccalaureate Certificate are accepted, related subjects are required.
TOEFL iBT with 80 overall and a minimum of 17 in Writing and Listening, 18 in Reading and 20 in Speaking.
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雅思考试总分
6.0
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雅思考试指南
- 雅思总分:6
- 托福网考总分:80
- 托福笔试总分:160
- 其他语言考试:Pearson PTE with 57 overall and a minimum of 51 in all components.
CRICOS代码: H301
申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
From day one, you'll get involved in hands-on projects with other engineering students, developing your teamwork, management and leadership skills and learning how to analyse and solve problems creatively.<br><br>You'll study in our dedicated engineering labs in Chelmsford, using top-of-the range facilities. These include CAD/CAM and engineering computer modelling centres, industrial-scale CNC milling and lathe machines, metal and plastic rapid prototyping machines, welding equipment, electronic testing and measuring equipment, and much more.<br><br>You can choose to take an optional placement year in industry as part of this course, further enhancing your skills, experience and employability.<br>While studying Mechanical Engineering at ARU, you'll develop both your academic and practical skills, becoming an analytical and creative problem-solver, exploring how engineering works and how to achieve results within financial constraints. You'll use testing and measurement equipment, learn how to specify and design electronics subsystems, and use computer-based and mathematical methods to model and analyse mechanical engineering problems.<br><br>The concept of Vertical Integrated Learning is not new but the adaptation across technical education is limited. VIL has been a focus for medical education where classroom-based knowledge is gradually replaced with more hands-on practical skills learned by working with real-life medical challenges and patients. Engineering and technology demand high level of skills to service the industry, and the diverse range disciplines desires a practical and innovative approach to train the next generation of industry ready graduates.<br><br>At ARU, we have embraced the challenge to introduce 50% of our engineering curriculum based on developing practical and applied skills among our engineering cohorts. The approach is challenging in embedding major applied fundamentals as laboratory-based exercise delivering key engineering learning outcomes, as well as maintaining the high standards of PSRB accredited programmes. Our engineering curriculum at ARU offers unique project-based curriculum at each level, in which students are offered industry led ''Live Briefs'' applying fundamental science and engineering principles to propose a solution. This innovative approach allows students to spend 50% of their time in classroom to study fundamental engineering curriculum at level 4 and spend remaining 50% time in the well-equipped engineering workshops as well as specialist laboratories. The VIL approach at ARU is supported by local and national engineering companies, such as BAE system and Tecosim. The same approach follows-on at level 5 and 6 by engaging in advanced engineering projects and developing core engineering knowledge and skills required for a graduate engineer.<br><br>At ARU, our expert staff are experienced industry professionals and researchers who will guide and advise you throughout the course.
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