Civil Engineering

Course Content

Course Name	STATICS
Semester	Course Code	Theory Practice Hours	ECTS
6	1204202	4 / 0	6

Course Level

Bachelor's Degree

Course Delivery Format

Face to face

Coordinator

Assoc. Prof. Dr. Ceyhun Aksoylu

Coordinator E-mail

caksoylu ktun.edu.tr

Instructor

Assoc. Prof. Dr. Ceyhun Aksoylu, Assoc. Prof. Dr. Alptuğ Ünal

Course Assistant

Course Objective

Considering the basic concepts, definitions and solution proposals of statics, basic problems of statics, truss systems calculation and ideal truss system design, friction force, center of gravity and moment of inertia, carrier systems, normal force, shear force and bending moment on beam elements in the carrier system, teaching static analysis approaches of cables exposed to axial tensile force.

Eng Temel Meslek Dersi
100

Instructional Methods
Demonstration, Lecture, Question and Answer

Week	Course Content	Resource
1	Introduction to statics, basic concepts and basic principles of statics. Basic problems of statics, solutions and support types	Engineering Mechanics-Static-Hibbeler
2	Summation of the system of forces applied at a point and equilibrium conditions	Engineering Mechanics-Static-Hibbeler
3	Moment of force about a point and couple theory.	Engineering Mechanics-Static-Hibbeler
4	Theorems about the couple and bringing the space system of forces to a center	Engineering Mechanics-Static-Hibbeler
5	Equilibrium conditions of the space force system.	Engineering Mechanics-Static-Hibbeler
6	Special cases and Varignon's Theorem. Examples of equilibrium conditions of the system of planar forces.	Engineering Mechanics-Static-Hibbeler
7	Finding the center of gravity calculations, examples.	Engineering Mechanics-Static-Hibbeler
8	General question solving	Engineering Mechanics-Static-Hibbeler
9	Midterm
10	Moment of inertia calculations, examples
11	Calculation of shear force and bending moment in beams.	Engineering Mechanics-Static-Hibbeler
12	Calculation of cage systems	Engineering Mechanics-Static-Hibbeler
13	Knots method and Ritter Method.	Engineering Mechanics-Static-Hibbeler
14	Calculation of tensile force in suspended cables.	Engineering Mechanics-Static-Hibbeler
15	Frictional force.	Engineering Mechanics-Static-Hibbeler

No	Course Outcomes (CO)	Percent
1	The basic concepts of statics will be taught and their relationship with real situations will be determined.	30
2	It will be possible to determine the cross-sectional effects that occur under the effect of external load in the carrier systems.	35
3	The basic concepts of civil engineering will be given and the student's infrastructure will be formed for Civil Engineering.	35

	CO 1	CO 2	CO 3
PO 1	10	10	10
PO 2	0	0	0
PO 3	10	10	5
PO 4	5	5	5
PO 5	0	0	0
PO 6	10	10	10
PO 7	0	0	0
PO 8	0	0	0
PO 9	0	0	0
PO 10	0	0	0
PO 11	0	0	0
PO 12	0	0	0

ECTS Workload	Number	Duration,Min	Total Workload
Weekly Lecture Hour (Theoretical)	4	1500	6000
Weekly Practice/Lab Hour	0	0	0
Homework	14	200	2800
Quiz	0	0	0
Material Design, Preparation	0	0	0
Field Studies	0	0	0
Report Preparation	0	0	0
Presentation	0	0	0
Project Making	0	0	0
Other Studies	0	0	0
Mid-Term exam and pre-study	1	120	120
Final Exam and pre-study	1	120	120

ECTS Workload	% of Mid-term Grading	% of Final Grading
Weekly Lecture Hour (Theoretical)	0	0
Weekly Practice/Lab Hour	0	0
Homework	0	0
Quiz	0	0
Material Design, Preparation	0	0
Field Studies	0	0
Report Preparation	0	0
Presentation	0	0
Project Making	0	0
Other Studies	0	0
Mid-Term exam and pre-study	40	0
Final Exam and pre-study	0	60

Civil Engineering

Department Course Content

Course Content