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SDÜ Education Information System Course Content
Programme
Graduate School of Natural and Applied Sciences Manufacturing Engineering
Course Information
Course Unit Code
Course Unit Title
Credit Theoretic
Credit Pratic
Credit Lab/A
Credit Total
Credit Ects
Semester
01IMM5156
Introduction for Continuum Mechanics
3.00
0.00
0.00
3.00
6.00
1
Course Information
Language of Instruction
Turkish
Type of Course Unit
Elective
Course Coordinator
Associate Professor Dr. Melek USAL
Course Instructors
3-Melek USAL
Course Assistants
0-Yok
Course Aims
To investigate of constitutive behavior of engineering materials under the couple electrical and mechanical in interactions.
Course Goals
1) To define continuous media model and motion of continuum media
2) To determine deformation and deformation tensörs
3) To explain contact stress- deformation
4) To teach electromechanic force, couple and power
5) To teach balance laws of electrostatic
6) To teach basic principles of continuous media mechanic.
Learning Outcomes of The Course Unit
1) Defining continuous media model and motion of continuum media
2) Determinig deformation and deformation tensörs
3) Understanding contact stress- deformation
4) Teaching electromechanic force, couple and power
5) Teaching balance laws of electrostatic
6) Teaching basic principles of continuous media mechanic.
Course Contents
Motion of continuum media, Coordinat systems and geometry of deformation, Place vector in material and spatial coordinate, Deformation gradients, Green, Cauchy, Piola and Finger deformation tensörs, Strain tensör, load, electricity field, electrical potential, electrical displacement vector- polarization, Gauss and Faraday laws, Basic principles of continuous media mechanic.
Prerequisities and Co-requisities Courses
 
Recommended Optional Programme Components
 
Mode Of Delivery
 
Level of Course Unit
 
Assessment Methods and Criteria
ECTS / Table Of Workload (Number of ECTS credits allocated)
Studies During Halfterm
Number
Co-Efficient
Activity
Number
Duration
Total
Visa
1
60
Course Duration (Excluding Exam Week)
16
3
48
Quiz
0
0
Time Of Studying Out Of Class
16
4
64
Homework
5
40
Homeworks
5
10
50
Attendance
0
0
Presentation
0
0
0
Application
0
0
Project
0
0
0
Lab
0
0
Lab Study
0
0
0
Project
0
0
Field Study
0
0
0
Workshop
0
0
Visas
1
8
8
Seminary
0
0
Finals
1
10
10
Field study
0
0
Workload Hour (30)
30
TOTAL
100
Total Work Charge / Hour
180
The ratio of the term to success
40
Course's ECTS Credit
6
The ratio of final to success
60
 
TOTAL
100
 
Recommended or Required Reading
Textbook
 
Additional Resources
Şuhubi E.S., Continuum mechanics ? Introduction, İ.T.U., Faculty of Arts and Sciences Publication. İstanbul, Turkey, pp: 243, (1994).

Electrodynamics of continua I and II. 1989 A. Cemal Eringen, G.A. Maugin . Berlin: Springer verlag.

Electrodynamics of continuous media. 1982. Landau, Lev Davidovich. Pergamon Pres, Oxford .

Classical electrodynamics. 1967. Jackson, John David. John Wiley & Sons New York .

Continuum mechanics of electromagnetic solids, 1988. Maugin, Gerard A. North-Holland, New York.

Nonlinear electromechanical effects and applications. 1985. Maugin, Gerard A. World Scientific, Singapore.
Material Sharing
Documents
 
Assignments
 
Exams
 
Additional Material
 
Planned Learning Activities and Teaching Methods
Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)
Work Placements
As with any other educational component, credits for work placements are only awarded when the learning outcomes have been achieved and assessed. If a work placement is part of organised mobility (such as Farabi and Erasmus), the Learning Agreement for the placement should indicate the number of credits to be awarded if the expected learning outcomes are achieved.
Program Learning Outcomes
No
Course's Contribution to Program
Contribution
1
An able to use informations of mathematicall, science, engineeringin solving the manufacturing engineering problems
5