OVERVIEW
Our Bachelor of Mechanical Engineering programme is a dynamic and comprehensive discipline that equips you with strong physics and mathematical skills, preparing you for a wide range of careers in the digital economy. Throughout the programme, you will delve into various aspects of mechanical engineering, gaining a deep understanding of its principles and applications.
You will have access to state-of-the-art facilities and resources, allowing you to engage in practical experiments, design projects, and industry-relevant simulations. Our dedicated faculty, who are experts in their field, will guide you every step of the way, ensuring that you receive a supportive and engaging education.
School
Engineering
Intake Month
February, April and September
Study Options
Full time only
Accreditation
by BEM, EAC, and MQA
Overseas Transfer Options
United Kingdom (UK) and Australia
Professional Internship
8-week
Study Programme
4-year
Interested to know more? Start your journey with us now.
PROGRAMME OVERVIEW
PROGRAMME STRUCTURE
Throughout the programme, you will gain a deep understanding of the principles and technologies that drive these industries forward. You will explore the intricate workings of automotive systems, power generation processes, aerospace engineering, and advanced manufacturing techniques. By immersing yourself in these subjects, you will acquire the knowledge and skills necessary to excel in a rapidly evolving technological landscape.
In addition to industry-specific knowledge, we prioritise the development of your physics and mathematical skills. These foundational skills are crucial in the digital economy, enabling you to analyse complex problems, make data-driven decisions, and contribute to innovative solutions. By honing your abilities in these areas, you will be well-prepared for a wide range of careers that can positively impact the lives of many.
Primary Major
This component consists of Common Core subjects, which are common modules across a discipline that provides the fundamental knowledge of the discipline.
Common Core
Year 1
- Engineering Mathematics and Modelling I
- Engineering Mathematics and Modelling II
- Engineering Design and Analysis
- Programming Techniques
- Materials and Manufacturing
- Thermofluid Engineering I
- Introduction to Electronics & Electrical Power Machines
Year 2
- Engineering Design and Project Management
- Thermofluid Engineering II
- Engineering Solid Mechanics
Year 3
- Electronics & Microprocessors
- Automatic Control and Instrumentation
- Engineering Dynamics
- Finite Element Method and Simulation
- Mechanical Vibration
- Industrial Training
Year 4
- Final Year Engineering Project I
- Final Year Engineering Project II
- Mechanical Engineering Group Project I
- Mechanical Engineering Group Project II
- Professional Engineers and Society
Note:Â All information is subject to change. Readers are responsible for verifying information that pertains to them by contacting the university.
Specialisation
Specialisation 1: Smart Manufacturing
- Sustainable Development in Engineering
- Additive Manufacturing
- Advanced Manufacturing Systems
- Internet of Things
- Big Data Technologies
Specialisation 2: Sustainability in Engineering
- Sustainable Developement in Engineering
- Renewable and Alternative Energies
- Decarbonisation Technology
- Fuel Cell and Hydrogen Energies
- Engineering Economics and Environment Impact
Specialisation
Specialisation 1: Smart Manufacturing
- Sustainable Development in Engineering
- Additive Manufacturing
- Advanced Manufacturing Systems
- Internet of Things
- Big Data Technologies
Specialisation 2: Sustainability in Engineering
- Sustainable Developement in Engineering
- Renewable and Alternative Energies
- Decarbonisation Technology
- Fuel Cell and Hydrogen Energies
- Engineering Economics and Environment Impact
Flexible Education
The Flexible Education component offers students the flexibility to explore modules in a related or unrelated field, enhancing and complementing their primary major. This component allows students to broaden their knowledge and skills by selecting modules from the same or different schools within the university.
Flexible Education can take various forms, including free electives, extensions, minors, or even a second major. These options provide students with the opportunity to delve deeper into a specific area of interest or broaden their understanding by exploring a different field of study.
Click here to see a full list of all available Flexible Education Components.
You will need to choose one of the package below.
Minor
You will need to select any Minor packages offered by Taylor’s University. We have provided some suggested Minors below, and you can refer to the Flexible Education Guide for the complete list.
- IC Design and Embedded Systems
- Power and Energy Systems
- Robotics Design
- Process Integration and Unit Operation
The minor offered are subject to availability and you will need to meet the minimum module pre and co-requisite.
Are you ready to take the next step in your academic journey? Our programme offers an exciting opportunity for individuals passionate about the field of Bachelor of Chemical Engineering. To ensure a smooth admission process, please take note of our entry requirements listed below.
Prerequisites
- Pass SPM//O-level or equivalent with 5 credits for entry with pre-university /Foundation qualification (Except for UEC).
- Pass SPM/O-level or equivalent with 3 credits for entry with Diploma qualification.
Note:Â All information is subject to change. Readers are responsible for verifying information that pertains to them by contacting the university.
Entry Pathway
Pass Foundation in Engineering with min. CGPA 2.00
Foundation in Science (FIS)
Pass Foundation in Science with min CGPA of 2.00 including Mathematics and Physics/Chemistry
Sijil Tinggi Persekolahan Malaysia (STPM)
CC in Mathematics and Physics /Chemistry
Unified Examination Certificate (UEC)
A Pass in UEC with 5Bs with maximum 25 points including Mathematics and Physics /Chemistry
A Level
Min. DDD including Mathematics and Physics / Chemistry
AUSMAT (SACEi)
ATAR 65 including Mathematics (preferably Specialist Mathematics) and Physics / Chemistry
Canadian Pre-University (CPU)
Min. average of 60% in 6 subjects including Advanced Functions, Calculus & Vectors and Physics / Chemistry
International Baccalaureate (IB)
Min. 24 points in 6 subjects including Mathematics and Physics / Chemistry
Monash University Foundation Year (MUFY)
Overall 50% including Physics A&B / Chemistry A&B and Mathematics A&B
Other Qualifications
Ministry of Education Matriculation in related field min. CGPA 2.00 including
OR
Foundation in the Field of Engineering with min. CGPA 2.00
OR
Diploma in Engineering with min. CGPA2.00 from any institution recognised by the Malaysian Govt.
Application via APEL A is allowed. For the requirements please refer to the index page.
Notes:Â
- All information is subject to change. Readers are responsible for verifying information that pertains to them by contacting the university.
English Requirements
Band 4.0
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TOEFL
30 – 31 (Internet Based Test)
Cambridge English/ELSÂ also recognised; the minimum score varies by programme
MUET
Band 3
Pre-University programme / Diploma
Completed Pre-University programme / Diploma conducted in English
Note:Â All information is subject to change. Readers are responsible for verifying information that pertains to them by contacting the university.
FUTURE CAREERS
When you’ve successfully completed this Bachelor of Mechanical Engineering programme, you could embark on any of these exciting careers, including:
- Aerospace Engineer
- Aircraft Engineer
- Automotive Engineer
- Industrial Engineer
- Manufacturing Engineer
- Materials Engineer
- Mechatronic and Robotic Engineer
- Medical Engineer
- Product Development Engineer
- Project Engineer
- Systems Engineer