Second Cycle Programmes    (Master's Degree)
Master (with thesis) - Institute for Graduate Studies in Pure and Applied Sciences - Mechanical Education - Mechanical Education
General Description  |  Key Learning Outcomes  |  Course Structure Diagram with Credits
General Description ^
History
Marmara University Institute of Science was set up with the Law Rule Number 41. It started to accept student for graduate programs with the Graduate Instruction Rule Number 2457 in 1982. Master of Science and PhD Program of MECHANICAL EDUCATION PROGRAM has started in 1985-1986 Fall Semester. Marmara University Institute of Science’s essential aim is to arrange the graduation courses in Science and Engineering. Following the scientific and technologic developments. We want to find the way of the succesful projects and searches
Qualification Awarded
Who successfully complete the Graduate Program in Mechanical Education is qualified.
Specific Admission Requirements
The candidates must have a under graduate school diploma or equivalent education and to be succeed in the Academic Personnel and Postgraduate Education Entrance Examination regulated by OSYM.
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
Turkish higher education institutions are at early stage in the process of recognition of prior learning yet. For this reason, all the programs in Marmara University are not fully initialized.
Qualification Requirements and Regulations
Master of Science Doctor of Philosophy: In addition to at least 31 credit units of course work, the M.S. degree candidate must prepare and successfully defend a thesis. The maximum duration of M.S. study is six semesters.
Profile of The Programme
A dynamic, quality and application-oriented education and training program is carried out in the department to train teachers who will contribute to in the field of technical education and technological developments. Formal education language is Turkish.
Occupational Profiles of Graduates With Examples
Teacher for high schools of Ministry of National Education, Lecturer in Higher Education Institutions, Engineer (R & D and application areas), training specialists, sales staff, support staff for the various national and international companies.
Access to Further Studies
Candidates who have successfully completed the Master of Sciencedegree and who receives sufficient score from ALES (Academic Personal and Graduate Education Entrance Examination) and sufficient knowledge in English language can apply PhD programs.
Examination Regulations, Assessment and Grading
A variety of assessment methods such as mid-term(s), assignment(s), exercise(s), project(s), practice(s), and a final exam are implemented in the programme. Assessment methods may include classical test(s), multiple-choice test(s), homework(s), performance evaluation(s), and product evaluation(s). The course grade will be based upon the performance of the student on mid-term and final exam. 50% of the midterm exam and 50% of the final exam constitute the raw grade of the course. Raw grade is then converted into letter grade through the curve system.
Graduation Requirements
POSTGRADUATE PERIOD OF STUDY AND EXAM REGULATIONS Appointment of Thesis Supervisor and Thesis ARTICLE 14 – a) By the end of the second semester of the program, the head of the relevant department will have proposed a supervisor to the relevant institute for every student that is enrolled in a master’s program with a thesis. The appointment of a thesis supervisor must be formally approved by the relevant administrative board. In case the nature of the thesis topic requires more than one supervisor, a joint-supervisor may be appointed. b) (Amended Paragraph: RG-14/8/2008-26967) The thesis supervisor is chosen from among the faculty members, university lecturers with a PhD, or lecturers with a proficiency in the arts or expertise in medicine. c) The thesis supervisor will determine the thesis topic and inform the relevant institute of this before the end of the registration period for the third semester; the topic should be within the frame of study stipulated by the relevant administrative board. The supervisor will also evaluate the student’s work in respect to the program they are following. At the end of every semester the supervisor will send a report about the student’s work to the relevant institute via the head of the relevant department; this report will state whether the student has been successful or unsuccessful. Article 13/c of these regulations is to be applied in case of a failure. Conclusion of Master Thesis ARTICLE 15 - a) A student who has enrolled in a master’s program that requires a thesis must submit the thesis in the format specified by the relevant committee and defend the thesis orally before an examining jury. b) Members of the examining jury are appointed by the relevant administrative board upon the recommendation of the head of the relevant department. The examining jury consists of either 3 or 5 members, including the thesis supervisor and at least one member from a different department; this member is to be someone who has carried out research related to the subject from the same institution, or, if necessary, from a different institution. In the event of there being a three-member examining jury, the second joint-supervisor cannot serve as jury member. c) The student will defend the thesis, at the latest, one month after it has been submitted to the jury members. The defense of the thesis consists of an oral presentation followed by a question-and-answer period. The duration of the examination is at least 45 minutes and at most 90 minutes. d) Following the thesis defense, the examining jury will decide whether to “accept”, “reject” or “require revision” of the thesis; this decision is based on an absolute majority. Within three days following the thesis defense the relevant institute will be notified about the decision in a written report. A student whose thesis has been rejected by the jury will be dismissed from the institution. If the committee decides that the thesis needs to be revised, the student will defend the thesis before the same jury after having made the necessary changes, within three months. If the jury decides not to reject the thesis after the second defense, the student will be dismissed from the institution. Master’s Diploma (with Thesis) ARTICLE 16 – (With amended title: RG-7/4/2008-26840) The fundamental principles concerning a master’s diploma are as follows: a) A student who has successfully defended their thesis and has fulfilled all the other requirements, and who has submitted at least two bound copies and three soft copies, including the full version of the thesis with both the Turkish and English abstract to the institute within one month will be granted a master’s degree diploma and a supplementary diploma. If the diploma is not ready, the candidate will be given a certificate of graduation, but they will not be given a supplementary diploma. b) The diploma for a master’s degree with thesis will carry the official name of the master’s program that has been completed.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Marmara Üniversity Institute for Graduate Studies in Pure and Applied Sciences Mechanical Education Program Goztepe Campus, 34722 Kadıköy ISTANBUL Head of Program: Prof. Dr. Mustafa KURT Tel: +90-216-336 57 70 / 300 Fax: +90 (216) 337 89 87 E-mail: mkurt@marmara.edu.tr
Facilities
There are over 15 faculty members including Professors, Associate Professors, Assistant Professors and Research Assistants in the Department of Mechanical Education. It has wide variety laboratories equipped with modern measuring and testing devices as follows: Fluid Mechanics Lab. Solar Energy and Environment Lab, Heating and Cooling Lab. Sanitary Installation Lab. I-II Transportation Systems Lab. Motor Service Lab. Automotive Controlling Lab. Motor Modernization Lab. Automotive Repairing Lab. Diesel Motor Lab. Automotive Measurement Lab. Automotive Elec. and Electro. Lab. Vehicle Testing Lab. Fuel Engine Lab. Burning Inj. and Carburetion Lab. Milling Lab. Manufacturing Lab. Grinding Lab. Turning Lab. Computer Aided Design Lab. Computer Aided Manufac. Lab CNC Education Lab. Design Lab. Industrial CNC Lab. Die Manufacturing Lab. Hydraulics and Pneumatics Lab. Die Design Lab. Training programs which is application-oriented are given in collaboration with the industry and according to the industry's needs in the department.
Key Learning Outcomes ^
1 Obtaining skills of technical teachers for vocational schools and technical high school and qualified person for Industry and Mechanical Education and Technology
2 To be able to transfer the processes and results of the studies to the groups out of or in that field systematically and clearly in oral or written.
3 Have the efficiencies of reaching the knowledge by making a scientific research with extension and deepening of the knowledge in a field based on the qualifications of license degree
4 Able to develop the new strategic approaches in the complicated situations unexpected in the vocational activity and projects and to produce solution by taking responsibility.
5 Ability of communicating in oral and written at least in a foreign language
6 Ability to use new technologies in academical and industrial branch
7 Obtaining skills of using and developing the informatics and communicational technologies with the hardware and software knowledge which his occupation requires.
8 Developing the new strategic approaches in the complicated situations unexpected in the vocational activity and projects and to produce solution by taking responsibility.
9 Obtaining evaluation of strategic performances and contributions
10 Ability to conduct team work within the discipline, inter-disciplinary and multi-disciplinary
Course Structure Diagram with Credits ^
T : Theoretical P: Practice
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK-S1,2,3-YL Elective - 1-2-3 Elective 9 0 24
2 MAK-Z1-YL Core - 1 Elective 3 0 8
Total 12 0 32
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK700 Seminar Compulsory 0 2 4
2 MAK-S4,5-YL Elective - 4-5 Elective 6 0 16
3 MAK-Z2-YL Core - 2 Elective 3 0 8
Total 9 2 28
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 Thesis Compulsory 60
Elective
1 . Semester > MAK-S1,2,3-YL Elective - 1-2-3
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK710 Heat Conduction Compulsory 3 0 8
2 MAK711 Design Of Systems Compulsory 3 0 8
3 MAK713 Advanced Thermodynamics Compulsory 3 0 8
4 MAK714 Optimum Design of Machine Elements Compulsory 3 0 8
5 MAK715 Advanced Measurement Heat Conduction Compulsory 3 0 8
6 MAK716 Biomechanics and Fixator Design Compulsory 3 0 8
7 MAK717 Computer Aided Manufacturing Compulsory 3 0 8
8 MAK718 Experimental Stress Analysis Compulsory 3 0 8
9 MAK719 Finite Element Analysis Compulsory 3 0 8
10 MAK720 High Speed Cutting Technics Compulsory 3 0 8
11 MAK721 Elasticity Compulsory 3 0 8
12 MAK722 Theory and Applications of Metal Cutting Compulsory 3 0 8
13 MAK723 Plastic Part Design And Manufacturing Compulsory 3 0 8
14 MAK724 Computer Aided Design of Plastic Product Design Compulsory 3 0 8
15 MAK725 Applied Fluid Mechanics Compulsory 3 0 8
16 MAK726 Computer Aided Design of Work Dies Compulsory 3 0 8
17 MAK727 Solar Energy Systems Compulsory 3 0 8
18 MAK728 Computer Aided Die Forging Design Compulsory 3 0 8
19 MAK729 Emission of Motor Vehicles Compulsory 3 0 8
20 MAK730 Advanced Air Conditioning and Cooling Technique Compulsory 3 0 8
21 MAK731 Plastic Deformation Compulsory 3 0 8
22 MAK732 New Energy Resources Compulsory 3 0 8
23 MAK733 Advanced Materials and Their Industrial Application Compulsory 3 0 8
24 MAK734 Combustion Compulsory 3 0 8
25 MAK735 Design and Applications of Mechatronics Systems Compulsory 3 0 8
26 MAK736 Using Alternative Fuels in Internal Combustion Engine Compulsory 3 0 8
27 MAK737 Advanced Production Technologies Compulsory 3 0 8
28 MAK739 Total Quality Management Compulsory 3 0 8
29 MAK740 Finite Element Analysis and Industrial Applications Compulsory 3 0 8
30 MAK741 Investment Planning Compulsory 3 0 8
31 MAK742 System Dynamics and Control Compulsory 3 0 8
32 MAK743 Production Economy Compulsory 3 0 8
33 MAK744 Project Management Compulsory 3 0 8
34 MAK745 Product Development Compulsory 3 0 8
35 MAK746 Quality Assurance System Compulsory 3 0 8
36 MAK747 Strategic Management Compulsory 3 0 8
37 MAK748 Organisation and Work Perfection Compulsory 3 0 8
38 MAK753 Optimisation Techniques Compulsory 3 0 8
39 MAK754 Quality Techniques Compulsory 3 0 8
40 MAK755 Measurement Systems And Design Compulsory 3 0 8
41 MAK756 Statistical Techniques in Quality Management Compulsory 3 0 8
42 MAK757 Thermodynamics of Internal Combustion Engines Compulsory 3 0 8
43 MAK758 Artificial Intelligent Compulsory 3 0 8
44 MAK759 Noise From Motor Vehicle and Its Control Compulsory 3 0 8
45 MAK760 Techniques of Mixture Formation in Internal Combustion Engines Compulsory 3 0 8
46 MAK761 Occupational Safety and Risk Analysis Compulsory 3 0 8
47 MAK762 Aerodynamic of Vehicle Compulsory 3 0 8
48 MAK763 Design of Thermal Systems Compulsory 3 0 8
49 MAK764 Production Planning and Control Compulsory 3 0 8
50 MAK765 Taşıtlarda İklimlendirme İşlemleri Compulsory 3 0 8
51 MAK766 Soğutma Sistem Tasarımı Compulsory 3 0 8
52 MAK767 Isı Değiştiricileri Tasarımı Compulsory 3 0 8
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK701 Applied Mathematical Modelling Compulsory 3 0 8
2 . Semester > MAK-S4,5-YL Elective - 4-5
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK710 Heat Conduction Compulsory 3 0 8
2 MAK711 Design Of Systems Compulsory 3 0 8
3 MAK713 Advanced Thermodynamics Compulsory 3 0 8
4 MAK714 Optimum Design of Machine Elements Compulsory 3 0 8
5 MAK715 Advanced Measurement Heat Conduction Compulsory 3 0 8
6 MAK716 Biomechanics and Fixator Design Compulsory 3 0 8
7 MAK717 Computer Aided Manufacturing Compulsory 3 0 8
8 MAK718 Experimental Stress Analysis Compulsory 3 0 8
9 MAK719 Finite Element Analysis Compulsory 3 0 8
10 MAK720 High Speed Cutting Technics Compulsory 3 0 8
11 MAK721 Elasticity Compulsory 3 0 8
12 MAK722 Theory and Applications of Metal Cutting Compulsory 3 0 8
13 MAK723 Plastic Part Design And Manufacturing Compulsory 3 0 8
14 MAK724 Computer Aided Design of Plastic Product Design Compulsory 3 0 8
15 MAK725 Applied Fluid Mechanics Compulsory 3 0 8
16 MAK726 Computer Aided Design of Work Dies Compulsory 3 0 8
17 MAK727 Solar Energy Systems Compulsory 3 0 8
18 MAK728 Computer Aided Die Forging Design Compulsory 3 0 8
19 MAK729 Emission of Motor Vehicles Compulsory 3 0 8
20 MAK730 Advanced Air Conditioning and Cooling Technique Compulsory 3 0 8
21 MAK731 Plastic Deformation Compulsory 3 0 8
22 MAK732 New Energy Resources Compulsory 3 0 8
23 MAK733 Advanced Materials and Their Industrial Application Compulsory 3 0 8
24 MAK734 Combustion Compulsory 3 0 8
25 MAK735 Design and Applications of Mechatronics Systems Compulsory 3 0 8
26 MAK736 Using Alternative Fuels in Internal Combustion Engine Compulsory 3 0 8
27 MAK737 Advanced Production Technologies Compulsory 3 0 8
28 MAK739 Total Quality Management Compulsory 3 0 8
29 MAK740 Finite Element Analysis and Industrial Applications Compulsory 3 0 8
30 MAK741 Investment Planning Compulsory 3 0 8
31 MAK742 System Dynamics and Control Compulsory 3 0 8
32 MAK743 Production Economy Compulsory 3 0 8
33 MAK744 Project Management Compulsory 3 0 8
34 MAK745 Product Development Compulsory 3 0 8
35 MAK746 Quality Assurance System Compulsory 3 0 8
36 MAK747 Strategic Management Compulsory 3 0 8
37 MAK748 Organisation and Work Perfection Compulsory 3 0 8
38 MAK753 Optimisation Techniques Compulsory 3 0 8
39 MAK754 Quality Techniques Compulsory 3 0 8
40 MAK755 Measurement Systems And Design Compulsory 3 0 8
41 MAK756 Statistical Techniques in Quality Management Compulsory 3 0 8
42 MAK757 Thermodynamics of Internal Combustion Engines Compulsory 3 0 8
43 MAK758 Artificial Intelligent Compulsory 3 0 8
44 MAK759 Noise From Motor Vehicle and Its Control Compulsory 3 0 8
45 MAK760 Techniques of Mixture Formation in Internal Combustion Engines Compulsory 3 0 8
46 MAK761 Occupational Safety and Risk Analysis Compulsory 3 0 8
47 MAK762 Aerodynamic of Vehicle Compulsory 3 0 8
48 MAK763 Design of Thermal Systems Compulsory 3 0 8
49 MAK764 Production Planning and Control Compulsory 3 0 8
50 MAK765 Taşıtlarda İklimlendirme İşlemleri Compulsory 3 0 8
51 MAK766 Soğutma Sistem Tasarımı Compulsory 3 0 8
52 MAK767 Isı Değiştiricileri Tasarımı Compulsory 3 0 8
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MAK702 Applied Numerical Methods Compulsory 3 0 8

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