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Week
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Topics
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Study Metarials
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1
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Introduction to machine elements
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R1- Chapter 1, R2- Chapter 1
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2
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Stress, normal stress, shear stress
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R1- Chapter 1, R2- Chapter 1, R3- Chapter 1
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3
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Load and stress analyses
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R1- Chapter 2, R2- Chapter 1, R3- Chapter 1
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4
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Deflection and rigidity
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R1- Chapter 2, R2- Chapter 2, R3- Chapter 2
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5
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Static loading and errors arising from static loading
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R1- Chapter 2, R2- Chapter 2, R3- Chapter 2
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6
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Shafts and their strength and dimensioning calculations
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R1- Chapter 3, R2- Chapter 3, R3- Chapter 3
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7
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Dynamic loading and errors arising from dynamic loading
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R1- Chapter 4, R2- Chapter 4, R3- Chapter 3
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8
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Threads and nuts - I
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R1- Chapter 4, R2- Chapter 5, R3- Chapter 4
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9
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Threads and nuts - II
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R1- Chapter 4, R3- Chapter 5, R3- Chapter 4
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10
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Rivets
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R1- Chapter 4, R2- Chapter 5, R3- Chapter 4
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11
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Adhesives
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R1- Chapter 5, R2- Chapter 6, R3- Chapter 5
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12
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Welded joints and welded joints stresses
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R1- Chapter 5, R2- Chapter 6, R3- Chapter 5
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13
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Strength of welded joints
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R1- Chapter 5 and 6, R2- Chapter 7, R3- Chapter 6
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14
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Elastic joints, springs and their calculations
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R1- Chapter 6, R2- Chapter 7, R3- Chapter 6
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Prerequisites
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None
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Language of Instruction
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Turkish
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Responsible
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Asst. Prof. Dr. Hüseyin GÖKÇE
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Instructors
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-
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Assistants
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-
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Resources
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R1- Bozacı, A., (2005). Makina Elemanları, Cilt I, Çağlayan Kitabevi.
R2- Budynas, R.G., Nispett, K.J., Shigley`s (2014). Mechanical Engineering Design, 10th Edition, McGraw-Hill.
R3- Koç, E. (2019). Makine Elemanları Çözümlü Problemler. 6. Baskı. Akademisyen Kitabevi. Ankara.
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Supplementary Book
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-
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Goals
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Make students aware of the basic components of technical systems. Provide the students with the ability to compute and compute the properties and calculation of machine elements used in engineering designs.
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Content
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Stress, limits of strenght, analysis of load and stress, deflection nand rigidity, laoding, shafts, dynamic loading, threaded connections, rivets, adhesive joints, welded joints, elastic joints and springs
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Program Learning Outcomes |
Level of Contribution |
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1
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Apply theoretical and practical knowledge in the fields of Mathematics, Science and Engineering to Mechanical Engineering.
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4
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2
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Engineering graduates with skills and professional background in describing, formulating, modeling and analyzing the engineering problem, with a consideration for appropriate analytical solutions in all necessary situations.
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3
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3
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Engineering graduates with the necessary technical, academic and practical knowledge and application confidence in the design and assessment of machines or mechanical systems or industrial processes with considerations of productivity, feasibility and environmental and social aspects.
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4
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4
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Use the techniques, skills, and modern engineering tools necessary for mechanical engineering practice.
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3
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5
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Design and conduct experiments individually or in groups, as well as analyze and interpret data for mechanical engineering problems.
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-
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6
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Ability of identifying the potential resources for information or knowledge regarding a given engineering issue.
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2
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7
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The abilities and performance to participate multi-disciplinary groups together with the effective oral and official communication skills and personal confidence.
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2
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8
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Communicate effectively in oral and written forms with a good command of at least one foreign language, preferably English.
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-
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9
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Engineering graduates with motivation to life-long learning and having known significance of continuous education beyond undergraduate studies for science and technology.
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2
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10
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Engineering graduates with well-structured responsibilities in profession and ethics.
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-
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11
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Engineering graduates who are aware of the importance of safety and healthiness in the project management, workshop environment as well as related legal issues.
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-
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12
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Consciousness for the results and effects of engineering solutions on the society and universe, awareness for the developmental considerations with contemporary problems of humanity.
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-
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