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Master of Science in Mechanical Engineering (MSME) [2023 Entry]
理學碩士(機械工程學)
Programme Aims and Objectives
- To educate students to excel in advanced mechanical engineering discipline as well as to extend the boundaries of their professional competence to meet the needs of future industrial development.
- To provide opportunities for students to develop leadership and creativity by engaging in interactive learning environments and management studies.
Programme Intended Learning Outcomes (PILOs):
- ACQUIRE essential concepts and knowledge of advanced mechanical engineering as well as across the boundaries of interdisciplinary disciplines;
- APPLY specialized knowledge to solve problems that are critical to future growth of industry and business;
- WORK effectively with people possessing diverse educational and experiential backgrounds in mechanical related disciplines;
- APPLY interdisciplinary teamwork to develop abilities to meet the increasingly competitive and dynamically changing world market.
Unique Features:
- The programme utilizes a variety of learning modes and methods, including the followings:
- Lectures and Tutorials
- Co-operative Learning
- Seminars, Interactive Workshops and Panel Discussions offered by external as well as international experts, and active professionals working in the industry
- Students can bring their problems from work to class for team discussions and further analysis, and earn course credits upon obtaining satisfactory results.
Programme Structure and Contents
Course Syllabus (to be updated later)
Students may obtain the MSc degree either by completing (30 credit units):
- 5 core courses + 5 elective taught courses; or
- 5 core courses + dissertation + 2 elective taught courses
15 credit units of Core Courses + 15 credit units of Elective Courses
Core Courses (15 credit units)
Take all (9 credit units) as below:
Course Code | Course Title | Credit Units |
---|---|---|
MNE6007 | Advanced Automation Technology | 3 |
MNE6113 | Advanced Thermo-fluid | 3 |
MNE6116 | Applied Engineering Mechanics | 3 |
Course Code | Course Title | Credit Units |
---|---|---|
MNE6005 | Micro Systems Technology | 3 |
MNE6051 | Sustainable Green Manufacturing | 3 |
MNE6110 | Mechanical Behaviour of Materials: From Metallic to Biomedical/ Biological Materials | 3 |
MNE6126 | Sensors for Robotics, AI, and Control Systems | 3 |
Elective Courses (15 credit units)
Course Code | Course Title | Credit Units |
---|---|---|
MNE5101 | Principles of Nuclear Engineering | 3 |
MNE5103 | Risk and Reliability Engineering | 3 |
MNE5112 | Mechanical Design with Advanced Material & Additive Manufacturing | 3 |
MNE6001 | CAD/CAM Integration | 3 |
MNE6002 | Computer Controlled Systems | 3 |
MNE6005 | Micro Systems Technology# | 3 |
MNE6008 | Dissertation | 9 |
MNE6045 | Industrial Case Study | 3 |
MNE6046 | Nano-manufacturing | 3 |
MNE6047 | Directed Studies | 3 |
MNE6051 | Sustainable Green Manufacturing# | 3 |
BME6101 | Manufacturing of Biomedical Devices | 3 |
MNE6102 | Special Topics on Advanced Structural Materials | 3 |
MNE6107 | Kinetics in Nanoscale Materials | 3 |
MNE6110 | Mechanical Behaviour of Materials: From Metallic to Biomedical / Biological Materials# | 3 |
BME6111 | Biomedical Instrumentation | 3 |
MNE6114 | Control Systems and Information Processing | 3 |
MNE6115 | Bio-inspired Robots | 3 |
MNE6119 | Electron Microscopy | 3 |
MNE6124 | Advanced Micro/Nano Robotics | 3 |
MNE6125 | Engineering Methods | 3 |
MNE6126 | Sensors for Robotics, AI and Control Systems# | 3 |
MNE6127 | Microfluidics: From Fundamentals to Applications | 3 |
MNE6128 | Advanced Machine Learning and Quantum Computation for Engineering | 3 |
MNE6129 | Sustainable Engineering Practice | 3 |
MNE6130 | Modern Robotics | 3 |
# If not being taken to fulfil the core requirements
Duration of Study
Normal Period of Study
- 1 year (full-time)
- 1.5 years (via Dissertation) (part-time / combined mode)
- 2 years (via Taught Courses) (part-time / combined mode)
Maximum Period of Study
- 2.5 years (full-time)
- 5 years (part-time / combined mode)
Tuition Fees
Local Students | Non-Local Students |
---|---|
HK$5,600 per credit (2023/2024) | HK$5,600 per credit (2023/2024) |
STUDENT HANDBOOK (PDF)
(Note: The handbook is updated as at the beginning of the corresponding academic years.)
Entrance Requirements
Applicants must satisfy the University's general entrance requirements and the following programme entrance requirements.
- Hold a degree in engineering or equivalent;
- Applicants must have mechanical engineering or related engineering academic background.
Note: Final year undergraduate students who will acquire the requisite academic qualification before the commencement of the programme may apply for admission.
Entrance Requirements
Applicants must satisfy the University's general entrance requirements and the following programme entrance requirements.
- Hold a degree in engineering or equivalent;
- Applicants must have mechanical engineering or related engineering academic background.
Note: Final year undergraduate students who will acquire the requisite academic qualification before the commencement of the programme may apply for admission.
English Proficiency Requirement
Applicants whose entrance qualification is obtained from an institution where the medium of instruction is not English should also fulfil the following minimum English proficiency requirement:
- TOEFL @ score of 59 (revised paper-delivered test) or 79 (internet-based test); or
- Overall band score 6.5 in International English Language Testing System (IELTS) @ ; or
- Score 450 in the College English Test (CET-6); or
- Other equivalent qualifications.
TOEFL@ and IELTS scores are considered valid for two years. Applicants are required to provide their English test results obtained within the two years preceding the commencement of the University's application period.
Programme Leader
Last modified: on 3 August, 2023