To gain the concepts, theories and methods of structural evaluation of structural dynamics and the basic principles of earthquake resistant structural design and earthquake engineering and their use in structural engineering applications.
20
Contribution of the Course to Professional Development
To contribute to the understanding of dynamic behavior, which is an important element of structural engineering, advanced analysis approaches in earthquake resistant building design and their assimilation.
21
Learning Outcomes:
1
To be able to interpret and analyze the occurrence and basic concepts of earthquake;
2
Yapısal deprem mühendisliği ve sayısal analiz temel ilkelerini kullanarak yapıların depreme karşı analizlerini yapabilme
Ability to analyze structures against earthquake using the basic principles of structural earthquake engineering and numerical analysis;
3
To be able to interpret the earthquake behavior of structures;
4
Ability to use Spectrum Analysis Methods and Mod Superposition Methods;
5
To be able to understand the methods and restrictions used in practice and to be able to interpret them;
22
Course Content:
Week
Theoretical
Practical
1
Earthquake formation and Introduction to Structural Earthquake Engineering
2
Earthquake formation and Introduction to Structural Earthquake Engineering
3
Use of Structural Dynamics and Structural Concepts in Earthquake Engineering
4
Use of Structural Dynamics and Structural Concepts in Earthquake Engineering
5
Response Spectrum
6
Evaluation technique of Response Sectrum
7
Using Modal Analysis methods in Structural Earthquake Engineering
8
Using Response Spectra in Structural Earthquake Engineering
9
Using mod superposition technique on spectral analysis
10
Using mod superposition technique on spectral analysis
11
Calculation with Modal Collection Approach
12
Calculation with Modal Collection Approach
13
Introduction to nonlinear structural dynamic analysis
14
Introduction to nonlinear structural dynamic analysis
23
Textbooks, References and/or Other Materials:
Chopra, K.A., 2000. Dynamics of Structures: Theory and Applications to Earthquake Engineering, Prentice-Hall International Inc, 844 s – Celep, Z., Kumbasar, N., 2004. Deprem Mühendisliğine Giriş ve Depreme Dayanıklı Yapı Tasarımı, Beta Dağıtım, İstanbul, 596 s – Chen, W,F.,Earthquake Engineering Handbook, CRC Press
24
Assesment
TERM LEARNING ACTIVITIES
NUMBER
PERCENT
Midterm Exam
0
0
Quiz
0
0
Homeworks, Performances
3
40
Final Exam
1
60
Total
4
100
Contribution of Term (Year) Learning Activities to Success Grade
40
Contribution of Final Exam to Success Grade
60
Total
100
Measurement and Evaluation Techniques Used in the Course
klasik
Information
25
ECTS / WORK LOAD TABLE
Activites
NUMBER
TIME [Hour]
Total WorkLoad [Hour]
Theoretical
14
3
42
Practicals/Labs
0
0
0
Self Study and Preparation
0
0
0
Homeworks, Performances
3
45
135
Projects
0
0
0
Field Studies
0
0
0
Midtermexams
0
0
0
Others
0
0
0
Final Exams
1
3
3
Total WorkLoad
180
Total workload/ 30 hr
6
ECTS Credit of the Course
6
26
CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS
