a- Knowledge and Understanding Through knowledge and understanding, students will be able to:rna.1) Concepts and theories of mathematics and sciences, appropriate to the disciplinerna.3) Characteristics of engineering materials related to the disciplinerna.4) Principles of design including elements design, process and/or a system related to specific disciplines.rna.p.4) The constraints which mechanical power and energy engineers have to judge to reach at an optimum solution rnb- Intellectual Skills Through intellectual skills, students will be able to:rnb.6) Investigate the failure of components, systems, and processes.rnb.12) Create systematic and methodic approaches when dealing with new and advancing technology. rnc- Professional Skills Through professional and practical skills, students will be able to:rnc.2) Professionally merge the engineering knowledge, understanding, and feedback to improve design, products and/or servicesrnc.3) Create and/or re-design a process, component or system, and carry out specialized engineering designsrnc.5) Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret resultsrnc.6) Use a wide range of analytical tools, techniques, equipment, and software packages pertaining to the discipline and develop required computer programs.rnc.p.2) Prepare engineering drawings, computer graphics and specialized technical reports rnd- General Skills Through general and transferable skills, students will be able to:rnd.7) Search for information and engage in life-long self learning disciplinernd.9) Refer to relevant literature rn
Bachelor degree in Mechanical Engineering (Automotive Engineering)
Data will be available soon!
content serial | Description |
---|---|
1 | Introduction |
2 | Stress in machine parts |
3 | Stress, material ion and factor of safety |
4 | Applications to design of machine elements |
5 | Introduction to fatigue in metals. |
6 | Stress concentration and design of members subject to fatigue loading |
7 | Power screws types and applications / 7th week evaluation |
8 | Bolted joints, brackets, and pressure vessel |
9 | Welded and adhesive joints |
10 | Welded joints specifications |
11 | Spring types and applications – helical compression springs |
12 | Design of different of springs / 12th week evaluation |
13 | Miscellaneous design problem |
14 | Miscellaneous design problem |
15 | Miscellaneous design problem |
16 | Final Examination |
1 | Introduction |
2 | Stress in machine parts |
3 | Stress, material ion and factor of safety |
4 | Applications to design of machine elements |
5 | Introduction to fatigue in metals. |
6 | Stress concentration and design of members subject to fatigue loading |
7 | Power screws types and applications / 7th week evaluation |
8 | Bolted joints, brackets, and pressure vessel |
9 | Welded and adhesive joints |
10 | Welded joints specifications |
11 | Spring types and applications – helical compression springs |
12 | Design of different of springs / 12th week evaluation |
13 | Miscellaneous design problem |
14 | Miscellaneous design problem |
15 | Miscellaneous design problem |
16 | Final Examination |
1 | Introduction |
2 | Stress in machine parts |
3 | Stress, material ion and factor of safety |
4 | Applications to design of machine elements |
5 | Introduction to fatigue in metals. |
6 | Stress concentration and design of members subject to fatigue loading |
7 | Power screws types and applications / 7th week evaluation |
8 | Bolted joints, brackets, and pressure vessel |
9 | Welded and adhesive joints |
10 | Welded joints specifications |
11 | Spring types and applications – helical compression springs |
12 | Design of different of springs / 12th week evaluation |
13 | Miscellaneous design problem |
14 | Miscellaneous design problem |
15 | Miscellaneous design problem |
16 | Final Examination |
1 | Introduction |
2 | Stress in machine parts |
3 | Stress, material ion and factor of safety |
4 | Applications to design of machine elements |
5 | Introduction to fatigue in metals. |
6 | Stress concentration and design of members subject to fatigue loading |
7 | Power screws types and applications / 7th week evaluation |
8 | Bolted joints, brackets, and pressure vessel |
9 | Welded and adhesive joints |
10 | Welded joints specifications |
11 | Spring types and applications – helical compression springs |
12 | Design of different of springs / 12th week evaluation |
13 | Miscellaneous design problem |
14 | Miscellaneous design problem |
15 | Miscellaneous design problem |
16 | Final Examination |
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