Ondokuz Mayıs Üniversitesi Bilgi Paketi - Ders Kataloğu

Description of Individual Course Units

Course Unit CodeCourse Unit TitleType of CourseYearSemesterECTS
TYS203 Statics 927001 2 3 5
Level of Course Unit
First Cycle
Objectives of the Course
Provide students to understand the basic principles of static which they will use in engineering design and make them to be able to solve and analyze a static problem.
Name of Lecturer(s)
Prof. Dr. Bilal CEMEK
Learning Outcomes
  1. To teach international unit transformations
  2. To teach the basic principles of statics.
  3. Understanding of equilibrium system and performing force analysis
  4. Analysis of structural systems such as lattice systems, beams and cables
Mode of Delivery
Formal Education
Prerequisites and co-requisities
Recommended Optional Programme Components
Recommended or Required Reading
Omurtag, H. M. 2007. Statik ve Mukavemet. Nobel Yayınevi. İSTANBUL.
Omurtag, H. M. 2007. Statik ve Mukavemet Çözümlü Örnekleri. Nobel Yayınevi. İSTANBUL.
Olgun, M. 2011. Mühendislik Mekaniği (Statik). ANKARA
Planned Learning Activities and Teaching Methods
Language of Instruction
Work Placement(s)
Course Contents
asic principles of static (loads, balance equation, bearing types, delivery systems, isostatic and indeterminate systems), analyze of static problems, analyze of loads in buildings, beams, analysis of trusses and frames, analyze of indeterminate systems.
Weekly Detailed Course Contents
Week Theoretical Practice Laboratory
1.Introduction of Static of Materials (Basic concepts, basic principles of static, static analysis of structures). Information about teaching method and home works.
2.Resultant of plane forces system (Components of forces, moment of forces). Problem solving with guidance
3.Equilibrium of rigid bodies (Two-dimensional structures, bearing types, the balance equations) Problem solving with guidance
4.Gravity center and geometric center Problem solving with guidance
5.Inertia Moment Problem solving with guidance
6.Friction Problem solving with guidance
7.Loads in buildings-I (Classification of loads, snow and ice load, wind load) Problem solving with guidance
8.Loads in buildings-II (Water and earth pressure) Problem solving with guidance
9.Mid-Term Exam
10.Carrier system and beams. Problem solving with guidance
11.Lattice beam systems. Problem solving with guidance
12.Frames. Problem solving with guidance
13.Internal forces and cross section effects. Problem solving with guidance
14. Indeterminate systems. Problem solving with guidance
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight (%)
Midterm Examination170
End Of Term (or Year) Learning ActivitiesQuantityWeight (%)
Final Examination1100
Term (or Year) Learning Activities40
End Of Term (or Year) Learning Activities60
Workload Calculation
ActivitiesQuantityTime(hours)Total Workload(hours)
Midterm Examination11212
Final Examination11212
Attending Lectures14342