| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Strength | MKP116 | Compulsory | Associate degree | 1 | Spring | 3 |
Name of Lecturer(s)
Prof. Dr. Ali ÇINAR
Associate Prof. Dr. Canan CİMŞİT
Associate Prof. Dr. Hacer GÜMÜŞ
Associate Prof. Dr. Şule Yıldız ŞİRİN
Associate Prof. Dr. Mustafa TÜMER
Lecturer Pınar ADALI
Lecturer Sabri AKAY
Lecturer Ferit ARTKIN
Lecturer Ahmet ÇALIŞKAN
Lecturer Serpil ÇINAR
Lecturer Haluk DEMİRTAŞ
Lecturer Nejdet ERDEM
Lecturer İsmail Kalkan
Lecturer Rabi KARAALİ
Lecturer Durmuş KIR
Lecturer Cengiz SOYKAN
Lecturer Hatice Nil YALÇIN
Lecturer Erdem YEĞİN
Lecturer Dr. Ali İhsan ENGÜR
Learning Outcomes of the Course Unit
1) Define the applied stress versus strain condition
2) Define whether the system is safe
3) Define the stress-strain equation
4) Define hyperstatical problems at the tensile and compressive loads
5) Define the bending moment and shear force at single and uniformly distributed loaded
6) Calculate bending beams, the normal stress, moment of inertia, bending, stress concentration, shear stress, compound stress
7) Define strength enhancing measures
Program Competencies-Learning Outcomes Relation
| Program Competencies | |||||||||||||||||||||
| 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | ||
| Learning Outcomes | |||||||||||||||||||||
| 1 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 2 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 3 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 4 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 5 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 6 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
| 7 | High | High | Middle | Middle | Middle | High | High | Low | No relation | No relation | Low | No relation | High | Middle | Middle | No relation | Middle | No relation | Middle | No relation | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
Mathematics,Engineering Science-I
Course Contents
The definition and scope of strength and the types of stress, stress-expansion relations, hyper static problems, beams shear force and bending moment, bending stress and strain.
Weekly Schedule
1) The general definition of strength, elements used in engineering structures, the installation types and the definition of emerging effects exist2) Types of stress and strain, normal stress, shear stress. Engineering diagram drawing on the limit of elasticity, yield strength, tensile strength, tensile strength, elasticity modulus, Poisson ratio, safety factor,elongation of unit % , the definition of stress-strain relations
3) Drawing of normal force diagram, change of shape in horizontal-case of uniaxial tensile strain, stress, determination of size, solving of the problems of material selection
4) Change of strain in the case of vertical uniaxial tensile, the determination of stress size, solving of the problems of material selection
5) Solving example problems
6) Indeterminate problems in tension and compression
7) Solving example problems
8) Midterm examination/Assessment
9) Single loaded, bending moment in simply supported beams; the diagram and solution of shear force
10) Solving example problems
11) Bending moment in uniformly distributed load, simply supported beam; the diagram and solution of shear force
12) Solving example problems
13) Bending beams, the normal stress, moment of inertia, bending, the calculation of stress concentration
14) Bending beams, shear stress, compound stress account, strength-building measures
15) Revision
16) Final examination
Recommended or Required Reading
1- Cisimlerin Mukavemeti, Prof. Dr. Paşa YAYLA, Çağlayan kitap evi
2- Statik ve Mukavemet, Prof. Dr. Mehmet H. OMURTAG, Nobel yayın dağıtım.
3- ,,
4- Mukavemet Cilt I, Prof. Dr. Mehmet H. OMURTAG, Birsen yayınevi.
Mukavemet Cilt II, Prof. Dr. Mehmet H. OMURTAG, Birsen yayınevi.
Planned Learning Activities and Teaching Methods
1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Demonstration
Assessment Methods and Criteria
Contribution of Midterm Examination to Course Grade |
40% |
|---|---|
Contribution of Final Examination to Course Grade |
60% |
Total |
100% |
Language of Instruction
Turkish
Work Placement(s)
Not Required