Course Code: : 5103113

Course Name : The theory of Elasticity

Instructor : Assos. Dr. Murat KISA

Theoretical / Practical / Credit : 3 / 0 / 3

Learning Activity	Estimated Time(Hour)	Evaluation
Theoretical Course (14 Week)0	3 x 14 = 42	Participation to class
Guided Problem Solving	None
Individual Study	3 x 14 = 42
Weekly homework problems solving	1 x 14 = 14	Individual or teamwork and report preparation for homework’s.
Term project	None
Midterm Exam	4 x 2 = 8	Open/ Closed exam
Final Exam	Exam : 2 Individual work : 8	Open/ Closed exam
Quiz (4 piece)	Individual work : 8	Open/ Closed exam
Research (internet/library)
Other(………………………. )
Total Course Load (Hours)	124

HARRAN UNİVERSITY ENGINEERING FACULTY

MECHANICAL ENGI0NEERING DEPARTMENT

Course Name		Code	Semester	T+U	Credit	AKTS
The theory of Elasticity		5103113	Fall	3+0	3	5
Prerequisite Courses	None
Language of Course	Turkish
Course class	Elective
Coordinator of Course	Assos. Dr. Murat KISA
Instructor	Assos. Dr. Murat KISA
Course Assistant	-
Objective of course	By understanding the basic concepts of elasticity of elasticity methods to solve problems encountered in practice as effective and accurate.
Course Learning Output	• In this course, stress analysis, strain-displacement, stress-strain relations, the formulation of elasticity problems, the two-dimensional problems, torsion of cylindrical bars, energy methods, Cartesian tensor notation, the equations of elasticity and the representation in the vector, orthogonal curvilinear coordinates , is expected to know the concepts of displacement functions and stress functions. • Learned techniques to the problems of elasticity are expected to implementation successfully. • understanding of issues in the course of the next survey is expected to develop its ability. • After completing this course successfully, students will encounter a better understanding of basic engineering problems, mathematical models have the ability to create and solve an appropriate method.
Course Contents	Analysis of stress, strain and displacement, Stress-Strain Connections, Formulation of Elasticity Problems, Two-dimensional problems, torsion of cylindrical bars, energy methods, Cartesian tensor notation, stress tensor, strain-displacement and elasticity field equations, the vector of Elasticity and representation, orthogonal curvilinear coordinates, the displacement functions and stress functions

Weeks	Plan of Course at Semester
1	Introduction to the theory of elasticity.
2	Cartesian tensor notation, stress tensor, vector and the representation of Elasticity, orthogonal curvilinear coordinates.
3	Strain-displacement and field equations of elasticity.
4	Strain and displacement, Stress-Strain Connections.
5	The displacement functions and stress functions.
6	Formulation of Problems of Elasticity.
7	Stress
8	Midterm exam
9	Two-Dimensional Problems
10	Two-Dimensional Problems Continue.
11	Two-Dimensional Problems Continue.
12	Torsion of cylindrical bars
13	Energy methods
14	Energy methods continue

General Sufficiency

Knowing the basic concepts of the theory of elasticity, stress analysis, strain-displacement, stress-strain relations, the formulation of problems of elasticity, energy methods, displacement functions and stress functions to be informed about.

References

1. Elastisite Teorisi, İlhan Kayan, Erdoğan Şuhubi, Arı Kitabevi, İstanbul, 1969.

2. Theory of Elasticity, S. Timoshenko, J.N. Goodier, McGraw-Hill Education (September 30, 1970), ISBN: 0070858055

3. Elasticity : Theory, Applications, and Numerics, Martin H. Sadd, Academic Press (August 20, 2004), ISBN: 0126058113

4. Mathematical Theory of Elasticity by Richard B. Hetnarski, Jozef Ignaczak, Taylor & Francis Group (February 1, 2004), ISBN: 159169020X

Form of Assessment

Mid Exam and Task/Project Average of Arithmetical: %40

Final:%60

Projects:-

Homework:-