TOROS ÜNİVERSİTESİ
Bilgi Paketi Ders Kataloğu

Course Information

RESISTANCE
Code	Semester	Theoretical	Practice	National Credit	ECTS Credit
		Hour / Week
ITP245	Fall	2	0	2	0

Prerequisites and co-requisites	none
Language of instruction	Turkish
Type	Required
Level of Course	Associate
Lecturer	Lect. Sümeyye GÜNDÜZ
Mode of Delivery	Face to Face
Suggested Subject	none
Professional practise ( internship )	None
Objectives of the Course	In accordance with the associate degree education, the structure and the details of the building carrier, the handling and resolution of the sizing problems,
Contents of the Course	Study of elastic and plastic behaviors in elastic and rod systems, stress-strain relationships, simple and combined stress states, and dimensioning of structural elements

Learning Outcomes of Course

#	Learning Outcomes
1	Mathematics-Physics-Mechanics (Static) -Mathematic Mechanics (Strength) explains the relationship
2	Evaluates the placement of the force-strain relationship concept
3	Explains the settlement of the Concept of Moment
4	Explains the clarification of the concept of deformation
5	Technically, it will show no result without cause
6	In building systems, safety is emphasized as coming first
7	Evaluates the necessity of not creating any artifacts without calculation
8	Computer output shows that manual control is essential

Course Syllabus

#	Subjects	Teaching Methods and Technics
1	Principles of strength of materials	Expression
2	Elastic, elasto-plastic, plastic behavior under force-stress, experimental results	Expression
3	Stress concept and stresses in long bar system	Expression
4	Deformation concept and shape changes in long bar system	Expression
5	Strain-strain relationships, Poisson's ratio and graphical representations	Expression
6	Normal Force State and calculation method	Expression
7	Normal Force State and Calculation method	Expression
8	Midterm	Midterm
9	Shear Force state and calculation method	Expression
10	Section moment of inertia	Expression
11	Simple Bending Mode - Linear elastic strain and stress distribution	Expression
12	Compression bars and buckling	Expression
13	Compression bars and buckling	Expression
14	Combned stress	Expression
15	Term repeat	Expression
16	Final Exam	Final Exam

Course Syllabus

#	Material / Resources	Information About Resources	Reference / Recommended Resources
1	Strength of materials (Mustafa İnan)
2	Strength of materials (Mehmet Bakioğlu)
3	Visual material

Method of Assessment

#	Weight	Work Type	Work Title
1	20%	Mid-Term Exam	Mid-Term Exam
2	20%	Mid-Term Exam	Mid-Term Exam
3	60%	Final Exam	Final Exam

Relationship between Learning Outcomes of Course and Program Outcomes

#	Learning Outcomes	Program Outcomes	Method of Assessment
1	Mathematics-Physics-Mechanics (Static) -Mathematic Mechanics (Strength) explains the relationship	2͵4	1͵2͵3
2	Evaluates the placement of the force-strain relationship concept	2͵4	1͵2͵3
3	Explains the settlement of the Concept of Moment	2͵4	1͵2͵3
4	Explains the clarification of the concept of deformation	2͵4	1͵2͵3
5	Technically, it will show no result without cause	2͵4	1͵2͵3
6	In building systems, safety is emphasized as coming first	2͵4	1͵2͵3
7	Evaluates the necessity of not creating any artifacts without calculation	2͵4	1͵2͵3
8	Computer output shows that manual control is essential	2͵4	1͵2͵3

PS. The numbers, which are shown in the column Method of Assessment, presents the methods shown in the previous table, titled as Method of Assessment.

Work Load Details

#	Type of Work	Quantity	Time (Hour)	Work Load
1	Course Duration	14	2	28
2	Course Duration Except Class (Preliminary Study, Enhancement)	14	1	14
3	Presentation and Seminar Preparation	0	0	0
4	Web Research, Library and Archival Work	14	1	14
5	Document/Information Listing	0	0	0
6	Workshop	0	0	0
7	Preparation for Midterm Exam	2	4	8
8	Midterm Exam	2	2	4
9	Quiz	0	0	0
10	Homework	0	0	0
11	Midterm Project	0	0	0
12	Midterm Exercise	0	0	0
13	Final Project	0	0	0
14	Final Exercise	0	0	0
15	Preparation for Final Exam	1	6	6
16	Final Exam	1	2	2
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