COURSE SYLLABUS

STRENGHT OF MATERIALS I

1	Course Title:	STRENGHT OF MATERIALS I
2	Course Code:	MAK2003
3	Type of Course:	Compulsory
4	Level of Course:	First Cycle
5	Year of Study:	2
6	Semester:	3
7	ECTS Credits Allocated:	4
8	Theoretical (hour/week):	3
9	Practice (hour/week) :	0
10	Laboratory (hour/week) :	0
11	Prerequisites:	None
12	Recommended optional programme components:	None
13	Language:	Turkish
14	Mode of Delivery:	Face to face
15	Course Coordinator:	Doç. Dr. BETÜL GÜLÇİMEN ÇAKAN
16	Course Lecturers:	Dr.Öğr.Üye. Kenan TÜFEKCİ Doç.Dr.Betül GÜLÇİMEN ÇAKAN Doç.Dr.Betül SULTAN YILDIZ
17	Contactinformation of the Course Coordinator:	bgulcimen@uludag.edu.tr
18	Website:
19	Objective of the Course:	The purpose of this course is to help students apply basic principles of statics for rijid and deformable bodies and develop their engineering intuition for strength and deformation of engineering structures under external loadings. In addition, this course is intended to prepare students to apply design theory and approach that they learn for the mechanics of deformable bodies to complex systems that will be encountered in advanced design courses.
20	Contribution of the Course to Professional Development	This course will enable students to apply design theory and approach that they learn for the mechanics of deformable bodies to complex systems that will be encountered in Professional experience.

Learning Outcomes:

1	Ability to calculate the stress and strains of the structures loaded by tension, compression, shear, torsion, bending and combined loading.;
2	Ability to determine the mechanical properties of a material considering the tensile tests and engineering curve;
3	bility to compute the elastic stress and strains when the temperature of a component is increased or decreased.;
4	Ability to compute the hoop and longiditional stress at thin-walled pressure vessels.;
5	Ability to derive the stress transformation formulas and determine the normal and shear stresses in any given section for a given stress state by using Mohr Circle for plain stress condition.;
6	Ability to draw shearing force and bending moment diagrams.;
7	Ability to determine the appropriate dimensions of beams under vertical loadings to safely carry their loads.;
8	Ability to solve torsion problems of circular shafts as solid or hollow bars.;

22	Course Content:

Week	Theoretical	Practical
1	Definitions and content of course, basic assumptions of Strength of Materials
2	Concepts of internal force and stress in structural elements, types of stress, axial loading, tensile test
3	Concepts of normal stress and strain
4	Shear stress and shear strains
5	Thermal stresses, the general form of Hooke's Law and unit volume chance, constitutive equation
6	Thermal stresses, the general form of Hooke's Law, constitutive equations
7	Thin-walled pressure vessels
8	Shearing force and bending moment diagrams
9	Torsion of circular shafts as solid or hollow bars
10	Bending, normal and shear stress in beams
11	Bending, analysis and design of beams for bending
12	The stress transformation and stress analysis by using Mohr’s circle for a given stress at a point in plain stress condition
13	The stress transformation and stress analysis by using Mohr’s circle for a given stress at a point in plain stress condition
14	Stresses under combined loadings

23	Textbooks, References and/or Other Materials:	1-Mechanics of Materials, Russell C. Hibbeler, Pearson. 2-“Mechanics of Materials”, Ferdinand P. Beer, E. Russell Johnston, John T. Dewolf, David F. Mazurek, McGraw-Hill. 3-“Mukavemet Cilt:1”, Onur Sayman, Ramazan Karakuzu, Alaattin Aktaş Sürat Yayınları. (in Turkish)
24	Assesment

TERM LEARNING ACTIVITIES	NUMBER	PERCENT
Midterm Exam	1	40
Quiz	0	0
Homeworks, Performances	0	0
Final Exam	1	60
Total	2	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	Midterm Exam and Final Exam
Information	Relative grading is applied.

ECTS / WORK LOAD TABLE

CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS

LO: Learning Objectives

PQ: Program Qualifications

Contribution Level:

1 Very Low

2 Low

3 Medium

4 High

5 Very High