| TYPE OF COURSE UNIT | Elective Course |
| LEVEL OF COURSE UNIT | Master's Degree With Thesis |
| YEAR OF STUDY | - |
| SEMESTER | - |
| NUMBER OF ECTS CREDITS ALLOCATED | 10 |
| NAME OF LECTURER(S) | Assistant Professor Bedi Cenk Balçık
|
| LEARNING OUTCOMES OF THE COURSE UNIT |
At the end of this course, the students;
1) Knowledge of deformation mechanic fundamentals.
2) Get knowledge about the interaction between material spaces and thermo mechanic outer loadings.
3) Understanding the interaction between forces and material in engineering problems.
|
| MODE OF DELIVERY | Face to face |
| PRE-REQUISITES OF THE COURSE | No |
| RECOMMENDED OPTIONAL PROGRAMME COMPONENT | None |
| COURSE DEFINITION | Elasticity: General approach, linear constitutive equations, material symmetric, isotropic materials, isotropic wave distribution in elastic solids, thermoelasticity: General approach, linear constitutive equations, isotropic materials. Fluid dynamics: Compressible and non-compressible fluids, visco-elasticity: Mechanic models, linear theories, specific problem solutions |
| COURSE CONTENTS | | WEEK | TOPICS |
|---|
| 1st Week | Constitutive theory axioms. Thermo-mechanic materials | | 2nd Week | Elastic materials. Isotropic Elastic materials. | | 3rd Week | Stokes fluids. Thermo-viscose fluids. | | 4th Week | Elasticity theory. Linear constitutive Equations. | | 5th Week | Restrictions on elastic module. Elastic wave Distribution on Isotropic solids. | | 6th Week | Fluid mechanics. Linear constitutive equations | | 7th Week | Specific fluid Transaction classes. Compressible ideal fluids and acoustic. | | 8th Week | Thermo-elastic waves. Visco-elasticity. | | 9th Week | Non-linear and linear Kelvin-Voight material. | | 10th Week | Maxwell material. | | 11th Week | General Visco-Elastic Materials. | | 12th Week | Functional constitutive equations. | | 13th Week | Wave Distrubition. | | 14th Week | Thermo-Viscoelastic fluids. |
|
| RECOMENDED OR REQUIRED READING | Eringen, A. C., (1980). Mechanic of Continua. Krieges.
Eringen, A. C., (1962). Nonlinear Theory of Continuous Media. McGraw-Hill.
Eringen, A. C., (1972). Continuum Physics, Vol. 2. Acad Press.
|
| PLANNED LEARNING ACTIVITIES AND TEACHING METHODS | Lecture,Questions/Answers,Problem Solving,Presentation |
| ASSESSMENT METHODS AND CRITERIA | | | Quantity | Percentage(%) |
|---|
| Mid-term | 1 | 30 | | Assignment | 6 | 10 | | Total(%) | | 40 | | Contribution of In-term Studies to Overall Grade(%) | | 40 | | Contribution of Final Examination to Overall Grade(%) | | 60 | | Total(%) | | 100 |
|
| ECTS WORKLOAD |
| Activities |
Number |
Hours |
Workload |
| Midterm exam | 1 | 3 | 3 | | Preparation for Quiz | | | | | Individual or group work | 14 | 4 | 56 | | Preparation for Final exam | 1 | 30 | 30 | | Course hours | 14 | 3 | 42 | | Preparation for Midterm exam | 1 | 20 | 20 | | Laboratory (including preparation) | | | | | Final exam | 1 | 3 | 3 | | Homework | 6 | 25 | 150 | | Total Workload | | | 304 |
|---|
| Total Workload / 30 | | | 10,13 |
|---|
| ECTS Credits of the Course | | | 10 |
|---|
|
| LANGUAGE OF INSTRUCTION | Turkish |
| WORK PLACEMENT(S) | No |
| | |
