1. Analysis of statically determinate structures subjected to external effects
2. Analysis of statically determinate structures subjected to live load
Prerequisite(s)
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Corequisite(s)
-
Special Requisite(s)
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Instructor(s)
LecturerElif AYDIN
Course Assistant(s)
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Schedule
-Monday,12:00-15:50, Atakoy, 3B0810
Office Hour(s)
Monday, 11:00-12:00, AK3B0810, Atakoy
Teaching Methods and Techniques
-Lecture
Principle Sources
-1. Yapı Statiği 1-2 (M. Karaduman) Nobel Akademik Yayıncılık Eğitim Danışmanlık, 2016 (8.Basım)
2.Yapı Statiği Cilt I (A. Çakıroğlu, E. Çetmeli) Beta Yayım Dağıtım,İstanbul, 2001.(11. Baskı)
Other Sources
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Course Schedules
Week
Contents
Learning Methods
1. Week
General Information, Purpose of Structural Engineering, Path Followed in Structural Engineering, Assumptions in Structural Statistics, Idealizations
Oral presentation
2. Week
General Information, Purpose of Structural Engineering, Path Followed in Structural Engineering, Assumptions in Structural Statistics, Idealizations
Oral presentation
3. Week
External Effects, Classification of Building Systems, Types of Loads, Support Responses
Oral presentation
4. Week
Internal Forces, Equations of Equilibrium, Hyperstatic Degree of Plane Structures, Isostatic Structures
Oral presentation
5. Week
Internal Forces, Equations of Equilibrium, Hyperstatic Degree of Plane Structures, Isostatic Structures
Oral presentation
6. Week
Analysis of isostatic beams, frames, cantilevers and span beams
Oral presentation
7. Week
Analysis of isostatic beams, frames, cantilevers and span beams
Oral presentation
8. Week
Analysis of isostatic beams, frames, cantilevers and span beams
Oral presentation
9. Week
Ara Sınav
10. Week
Relationships between loads, shear forces and bending moments, drawing internal force diagrams: shear force, bending moment and axial force.
Oral presentation
11. Week
Relationships between loads, shear forces and bending moments, drawing internal force diagrams: shear force, bending moment and axial force.
Oral presentation
12. Week
Relationships between loads, shear forces and bending moments, drawing internal force diagrams: shear force, bending moment and axial force.
Oral presentation
13. Week
Isostatic continuous beams, analysis under constant and live loads
Oral presentation
14. Week
Isostatic continuous beams, analysis under constant and live loads
Oral presentation
15. Week
Final Exam
16. Week
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
40
Final Exam
1
60
Program Outcomes
PO-1
Hold technical and vocational drawings
PO-2
Give support to engineering work in choosing construction materials
PO-3
Give support to engineering work in choosing construction materials
PO-4
Draw vocational projects and apply them in computer
PO-5
Take duty in designing and making projects of structure elements
PO-6
Ability to perform individually or as part of a group and take responsibility with confidence
PO-7
Having well-structured responsibilities in profession and ethics
PO-8
Possessing the critical and creative thinking skills and strategies essential for life-long learning and for keeping up with technological advancements
PO-9
Keep the field measurement and make the necessary calculations of field measurement
PO-10
Know the types of soil and help making experiements related to the soil
Learning Outcomes
LO-1
Classify structural systems
LO-2
Apply equations of static equilibrium to determine internal forces
LO-3
Draw influence line diagrams, and critically place live loads on statically determinate beams and frames using influence line diagrams.
LO-4
Determine deflections of statically determinate beams, frames and trusses.