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Description of Individual Course Units

Course Unit Code Course Unit Title Type Of Course D U L ECTS MAK 2022 STRENGTH OF MATERIALS II COMPULSORY 3 0 0 6

Offered By

Mechanical Engineering

Level of Course Unit

First Cycle Programmes (Bachelor's Degree)

Course Coordinator

PROFESSOR RAMAZAN KARAKUZU

Offered to

Mechanical Engineering Mechanical Engineering

Course Objective

The main objective of this course is to develop in the Mechanical Engineering students the ability to analyze a given mechanics problem in a simple and logical manner and to apply its solution a few fundamental and well-understood principles.

Learning Outcomes of the Course Unit

1   Ability to discuss stresses resulting from general loading 2   Ability to use transformation of stress and strain relationships 3   Ability to calculate stresses, applied loads, etc., in a machine element by using strain gage measurements 4   Ability to design mechanical systems 5   Ability to solve mechanics problems by energy methods

Mode of Delivery

Face -to- Face

Prerequisites and Co-requisites

None

Recomended Optional Programme Components

None

Course Contents

Week Subject Description 1 Unsymmetric bending. 2 General case of eccentric axial loading, Bending of curved members. 3 Stresses under combined loading, Transformation of plane stress. 4 Principal stresses and maximum shearing stress, Mohr s circle for plane stress. 5 Yield criteria for ductile materials. 6 Fracture criteria for brittle materials, Stresses in thin-walled pressure vessels. 7 1st mid-term exam. 8 Transformation of plane strain, Mohr s circle for plane strain, Measurements of plane strain, Strain rosette. 9 Design of transmission shafts subjected to bending and torsion moments. 10 Deflection of a beam under transverse loading by integration method, Equation of the elastic curve, Statically indeterminate beams, Method of superposition. 11 Columns, Stability of structures, Euler s formula, An eccentric loading. 12 2nd mid-term exam. 13 Energy methods, Design for impact loads, Work and energy under a single load. 14 Castiglione s theorem, Deflections by Castiglione s theorem, Statically indeterminate problems

Recomended or Required Reading

Textbook(s): Beer F.P., Johnston E.R., DeWollf J.T., Mazurek D.F., "Mechanics of Materials"

Planned Learning Activities and Teaching Methods

Assessment Methods

SORTING NUMBER SHORT CODE LONG CODE FORMULA 1 MTE1 MIDTERM EXAM 1 2 MTE2 MIDTERM EXAM 2 3 ASG ASSIGNMENT 4 QUZ QUIZ 5 FIN FINAL EXAM 6 FCG FINAL COURSE GRADE MTE1 * 0.175 + MTE2 * 0.175 + ASG * 0.05 + QUZ * 0.20 + FIN * 0.40 7 RST RESIT 8 FCGR FINAL COURSE GRADE (RESIT) MTE1 * 0.175 + MTE2 * 0.175 + ASG * 0.05 + QUZ * 0.20 + RST * 0.40

Further Notes About Assessment Methods

None

Assessment Criteria

To be announced.

Language of Instruction

Turkish

Course Policies and Rules

To be announced.

Contact Details for the Lecturer(s)

Prof. Dr. Ramazan KARAKUZU; ramazan.karakuzu@deu.edu.tr Assoc. Prof. Dr. Yusuf ARMAN; yusuf.arman@deu.edu.tr Assist.Prof.Dr. Okan ÖZDEMIR, ozdemir.okan@deu.edu.tr

Office Hours

To be announced.

Work Placement(s)

None

Workload Calculation

Activities Number Time (hours) Total Work Load (hours) Lectures 12 3 36 Preparations before/after weekly lectures 14 2 28 Preparation for midterm exam 2 17 34 Preparation for final exam 1 21 21 Preparation for quiz etc. 6 1 6 Preparing assignments 2 8 16 Midterm 2 2 4 Final 1 2 2 Quiz etc. 6 0,5 3 TOTAL WORKLOAD (hours) 150

Contribution of Learning Outcomes to Programme Outcomes

PO/LO PO.1 PO.2 PO.3 PO.4 PO.5 PO.6 PO.7 PO.8 PO.9 PO.10 PO.11 PO.12 PO.13 PO.14 PO.15 LO.1 5 5 LO.2 5 5 LO.3 5 5 3 3 LO.4 5 5 5 3 LO.5 5 5