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EasyUni Sdn Bhd

Level 17, The Bousteador No.10, Jalan PJU 7/6, Mutiara Damansara 47800 Petaling Jaya, Selangor, Malaysia
4.4

(43) Google reviews

+60142521561

EasyUni Sdn Bhd

Level 17, The Bousteador No.10, Jalan PJU 7/6, Mutiara Damansara 47800 Petaling Jaya, Selangor, Malaysia
4.4

(43) Google reviews

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MEng (Hons) Mechanical Engineering (Integrated Master's)

Course overview

Statistics
Qualification Bachelor's Degree
Study mode Full-time, Part-time
Duration 4 years
Intakes September
Tuition (Local students) S$ 61,630
Tuition (Foreign students) S$ 73,271
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Admissions

Intakes

Fees

Tuition

S$ 61,630
Local students
S$ 73,271
Foreign students

Estimated cost as reported by the Institution.

Application

Data not available
Local students
Data not available
Foreign students

Student Visa

Data not available
Foreign students

Every effort has been made to ensure that information contained in this website is correct. Changes to any aspects of the programmes may be made from time to time due to unforeseeable circumstances beyond our control and the Institution and EasyUni reserve the right to make amendments to any information contained in this website without prior notice. The Institution and EasyUni accept no liability for any loss or damage arising from any use or misuse of or reliance on any information contained in this website.

Entry Requirements

  • A-Level: Including passes at A2 in at least two subjects. Must include Maths and Physics or Electronics
  • BTEC: Extended Diploma (QCF) or Diploma (QCF) in a related subject.
  • International Baccalaureate: Diploma with 29 points including a minimum of 16 points at Higher Level, must include Maths and Physics at Higher Level

Note: We would normally expect you to have Grade C in GCSE English and Maths.

English Language Requirements:

  • Overall IELTS score of 6.0 with a minimum of 5.5 in Reading, Writing, Listening and Speaking (or recognised equivalent).

Curriculum

Mechanical engineers design, create and build mechanical devices that use mechanical motion. You’ll learn to apply the fundamentals of science and maths to create practical, useful solutions to relevant problems.

This course is built on a strong foundation of theory, reinforced by practical experience and innovation. It also features modules in new and emerging technologies.

Throughout your studies, you’ll acquire not only an understanding of general engineering principles but also a range of transferable skills, including the ability to contribute to team projects.

You’ll gain a knowledge and understanding of mechanical and electrical engineering principles, dynamics, solid mechanics, fluids, computational fluid dynamics (CFD), thermodynamics, heat transfer, control systems, computing techniques, mechatronics, manufacturing processes, material, energy technologies and sustainability.

You’ll also have the chance to undertake an advanced treatment of core mechanical engineering disciplines such as design analysis, dynamic systems, CFD, advanced materials, control systems and sustainable energy technologies.

Year 1

  • Mechanical and Electrical Engineering Principles (core)
  • Engineering Materials and Manufacturing Technology (core)
  • Engineering Mathematics and Fluid Mechanics (core)
  • Engineering Practice and Introduction to Computer Aided Design (core)

Year 2

  • Mechanics 1 and Mechanical Design (core)
  • Dynamics and Control (core)
  • Advanced Mathematics and Mechanics 2 (core)
  • Project and Quality Management for Mechanical Engineers (core)

OPTIONAL PLACEMENT YEAR
This course offers the opportunity of year-long placement between years two and three. If you choose to take this option, you’ll spend your third year on a placement with a relevant company or organisation, adding valuable practical experience to your growing academic knowledge. 

The extra placement year means it will take four years to complete your studies, instead of three.

Year 3

  • Group Project (option)
  • Computer Modelling and Techniques (option)
  • Thermodynamics 1 and Heat Transfer (option)
  • CFD and Energy Technology (option)

Year 4

  • Dissertation (core)
  • Sustainability and Renewable Energy Sources (core)
  • Advanced Materials and Finite Element Analysis (option)
  • Advanced Manufacturing Systems and Processes (option)
  • Automation and Robotics (option)
  • Statistical Process Control and Engineering Management (option)
  • Thermodynamics 2 (option)
  • Advanced Computer Aided Design (option)

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