Mechanical Engineering Higher National Diploma HND
Course overview
Qualification | Advanced Diploma |
Study mode | Full-time |
Duration | 1 year |
Intakes | September |
Tuition (Local students) | Data not available |
Tuition (Foreign students) | RM 34,690 |
Admissions
Intakes
Fees
Tuition
- Data not available
- Local students
- RM 34,690
- 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
- You'll need 120 UCAS tariff points and at least a Grade C in GCSE in Maths.
Notes:
- All applicants must show that they have a good level of spoken or written English, and if English is not your first language you'll need to demonstrate the ability to study in English.
- Applicants who do not meet the standard entry criteria but have relevant work / life experience will be considered on an individual basis and may be invited to interview.
Curriculum
- Analytical Methods for Engineers
- Engineering Science
- Project Design, Implementation and Evaluation
- Mechanical Principles
- Health, Safety and Risk Assessment in Engineering
- Business Management Techniques for Engineers
- Engineering Design
- Applications of Pneumatics and Hydraulics
- Advanced Computer-aided Design Techniques
- Programmable Logic Controllers
- Quality Assurance and Management
- Further Analytic Methods for Engineers
- Mechancial Systems
- Energy Management
- Heat Transfer and Combustion
- Engineering Thermodynamics
- Research Project