ACCREDITED BY MQA & MOHE || ISO 9001:2015 CERTIFIED
Bachelor of Mechanical Engineering Technology (Aeronautics) (Hons) is one of the most challenging fields of engineering with a wide scope for growth. This is a multidisciplinary programme where students are equipped with in depth knowledge of Physics and Mathematics, core skills in mechanical engineering with hands-on aircraft maintenance fundamentals to excel and develop as an aircraft maintenance engineer. The program would produce professionals with capacity to invent, to integrate, and to deploy the latest development in Mechanical and Aeronautics Engineering field. During the course students cover core mechanical disciplines including engineering mechanics, thermodynamics and control system while developing skills in project management and public speaking. Bachelor of Mechanical Engineering Technology (Aeronautics) (Honors), Lincoln University College prepare students to be an industry-ready professional engineer capable of applying the principles of technology and science to the design, production and operation of systems, devices and machinery.
Program Aim
Bachelor of Mechanical Engineering Technology (Aeronautics) (Hons) aims to equipped engineering graduates with enhanced knowledge of physics and materials science along with aeronautical engineering to play a leading professional roles in industry and public service
The aims of this programme are:
•To train the students to meet the ever increasing current industrial demand by providing technical knowledge regarding the principles underlying Mechanical Engineering and Aeronautics.
•To Develop expertise in planning, designing, constructing, supervising and managerial skills this is essential for the infrastructure of the modern technological communities.
•To Foster the development of personal qualities and professional competencies required to progress to evaluation as a Mechanical Engineer.
•To provide a relevant and useful programme, that can meet the needs of the individual, containing both theoretical and practical subjects within the broad areas of flight dynamics, structures, aerodynamics, materials, sustainable aviation and aerospace-related systems.
•To equip graduates with a detailed knowledge of advanced methods in aeronautical engineering, including theoretical foundations, computational and experimental methods and engineering applications.
Career Opportunities
Bachelor of Mechanical Engineering Technology (Aeronautics) (Hons) is focused on delivering Mechanical and Aeronautics engineering expertise with a clear focus on the needs of industry and producing graduates who are able to design, operate and manage Mechanical equipments and who can provide leadership in innovation, research and technology transfer. However, being based on a mechanical engineering degree, graduates will retain flexibility in the choice of many industrial sectors including energy engineering, manufacturing, design consultancy, materials processing, and aviation maintenance.
Some careers that graduates can attain once they complete the course are:
Programme Outcomes And Programme Educational Objectives
Knowledge | PO1 | Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialization and business context to define and applied engineering procedures, processes, systems or methodologies in the field of mechanical and aeronautical engineering technology. |
Problem analysis | PO2 | Identify, formulate, research literature and Analyze broadly- defined engineering problems reaching substantiated conclusions using analytical tools appropriate to mechanical and aeronautical engineering technology. |
Design/ development of solutions | PO3 | Design solutions for broadly-defined mechanical and aeronautical engineering technology problems and contribute to the design of systems, components or processes to meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations. |
Investigation | PO4 | Conduct investigations of broadly-defined mechanical and aeronautical engineering technology problems; locate, search and select relevant data from codes, data bases and literature, design and conduct experiments to provide valid conclusions. |
Modern Tool Usage | PO5 | Select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modeling, to broadly-defined mechanical and aeronautical engineering technology activities, with an understanding of the limitations. |
The Engineer and Society | PO6 | Demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to mechanical and aeronautical engineering technology practice. |
Environment and Sustainability | PO7 | Understand the impact of mechanical and aeronautical engineering technology solutions in socioeconomic and environmental context and demonstrate knowledge of and need for sustainable development. |
Ethics | PO8 | Understand and commit to professional ethics and responsibilities and norms of engineering technology practice. |
Individual and Team Work | PO9 | Function effectively as an individual, and as a member or leader in diverse technical teams. |
Communications | PO10 | Communicate effectively on broadly-defined engineering activities with the engineering community and with society at large, by being able to comprehend and write effective reports and design documentation, make and measure effective presentations, and give and receive clear instructions. |
Project Management and Finance | PO11 | Demonstrate knowledge and understanding of engineering management principles and apply these to one’s own work, as a member and leader in a team and to manage projects in multidisciplinary environments. |
Life Long Learning | PO12 | Recognize the need for, and have the ability to engage in independent and life-long learning in mechanical and aeronautical engineering technology. |
PEO | Statement |
PEO1 | Apply fundamental and advanced knowledge, techniques, and skills in defining of, and the subsequent solution of problems in mechanical and aeronautical engineering technology. |
PEO2 | Function and communicate effectively in a professional environment as an individual and as a team member, exhibiting good leadership and management skills. |
PEO3 | Exhibit a commitment to professional ethics, diversity and social awareness in their professional career, and to continue learning independently in the acquisition of new knowledge and skills. |
Subjects
Full Time : 48 Months.
Part Time : 72 Months.
Sl.No. | MQA Subject Code | Subject Name | Credits |
---|---|---|---|
1 | BET 1113 | Engineering Mathematics 1 | 3 |
2 | BME 1123 | Computer Aided Design (CAD) 1 | 3 |
3 | BME 1133 | Thermodynamics | 3 |
4 | ENG 613 | English | 3 |
Elective (Choose any one module from the following): | |||
5 | MPU 3113 | Islamic Civilization and Asian Civilization | 3 |
6 | MPU 3163 | Malay Communication 3 | 3 |
Elective (Choose any one module from the following): | |||
7 | MPU 3123 | Ethnic Relations | 3 |
8 | MPU 3173 | Malaysian Studies 3 | 3 |
9 | BEE 1213 | Basic Computer Programming | 3 |
10 | BME 1223 | Engineering Mechanics | 3 |
11 | BME 1233 | Human Factors in Design | 3 |
12 | BME 1243 | Fluid Mechanics | 3 |
13 | MPU 3232 | Leadership Skills and Human Relations | 2 |
14 | BME 1313 | Strength of materials | 3 |
15 | BME 1323 | Engineering Drawing | 3 |
16 | BME 1333 |
Engineering Laboratory Year 1
|
3 |
17 | BEE 2113 | Control System | 3 |
18 | BEE 2123 | Circuit Theory | 3 |
19 | BME 2133 | Computer Aided Design (CAD) 2 | 3 |
20 | BET 2143 | Engineering Mathematics 2 | 3 |
21 | MPU 3342 | Malaysian Government and Public Policy | 2 |
22 | BET 2213 | Probability and Statistics | 3 |
23 | BEE 2223 | Electronics 1 | 3 |
24 | BEE 2233 | Digital Electronics | 3 |
25 | BME 2243 | Engineering Material and Manufacturing Process | 3 |
26 | BEE 2253 | Measurement and Instrumentation | 3 |
27 | MPU 3452 | Community Service | 2 |
28 | BET 2313 | Entrepreneurship Development | 3 |
29 | BET 2323 | Safety and Health for Engineers | 3 |
30 | BME 2333 |
Engineering Laboratory Year 2
|
3 |
31 | BME 3113 | Automation and Robotics | 3 |
32 | BMA 3123 | Aerodynamics | 3 |
33 | BME 3133 | Computer Aided Design (CAD) 3 | 3 |
34 | BME 3143 | Artificial Intelligence | 3 |
35 | BME 3153 | Mechanical System Design | 3 |
36 | BME 3163 | Mechanics of Machine | 3 |
37 | BMA 3213 | Aircraft Propulsion | 3 |
38 | BMA 3223 | Aircraft Structures | 3 |
39 | BME 3233 | Finite Element Analysis in Mechanical Design | 3 |
40 | BMA 3243 | Aircraft Design | 3 |
Elective (Choose any one module from the following): | |||
41 | BMA 3253 | Aircraft General Engineering and Maintenance Practices | 3 |
42 | BMA 3263 | Industrial Aerodynamics | 3 |
43 | BET 3273 | Professional Ethics in Engineering | 3 |
44 | BMA 3283 | Space Mechanics | 3 |
45 | BMA 3293 | Flight Mechanics | 3 |
Intake and Entry Requirements
Intake :
Entry Requirements :