Education Information System

Course Information

FIZ709 - Katıhal Fiziği-1

Rapor Tarihi: 24.02.2026 07:20

Course Information

Course Title	Code	Language	Type	Semester	L+U Hour	Credits	ECTS
Solid State Physics-1	FIZ709	Turkish	Compulsory		3 + 0	3.0	7.5

Prerequisite Courses
Course Level	Graduate
Mode of delivery	Lecturing
Course Coordinator	Prof. Dr. Muharrem GÖKÇEN
Instructor(s)
Goals	Learning the physical and mathematical concepts in research topics of solid-state physics.
Course Content	Crystalline lattices, Structure of solids,Elastic reflection of waves and experimental methods,Chemical bonds in solids,Atomic vibrations,Electron levels and their energy,Thermodynamics of electron and phonons in metals and semiconductors,Thermal and electrical conduction,

Learning Outcomes

#	Öğrenme Kazanımı
1	The accumulation of mathematics and physics of basic research in solid state physics is acquired.

Lesson Plan (Weekly Topics)

Week	Topics/Applications	Method
1. Week	Crystalline lattices, Structure of solids	Interview, Presentation (Preparation)
2. Week	Crystalline lattices, Structure of solids	Interview, Presentation (Preparation)
3. Week	Elastic reflection of waves and experimental methods	Interview, Presentation (Preparation)
4. Week	Elastic reflection of waves and experimental methods	Interview, Presentation (Preparation)
5. Week	Elastic reflection of waves and experimental methods	Interview, Presentation (Preparation)
6. Week	Chemical bonds in solids	Interview, Presentation (Preparation)
7. Week	Chemical bonds in solids	Interview, Presentation (Preparation)
8. Week	Atomic vibrations
9. Week	Atomic vibrations	Interview, Presentation (Preparation)
10. Week	Electron levels and their energy	Interview, Presentation (Preparation)
11. Week	Electron levels and their energy	Interview, Presentation (Preparation)
12. Week	Thermodynamics of electron and phonons in metals and semiconductors	Interview, Presentation (Preparation)
13. Week	Thermodynamics of electron and phonons in metals and semiconductors	Interview, Presentation (Preparation)
14. Week	Thermal and electrical conduction.	Interview, Presentation (Preparation)

*Midterm and final exam dates are not specified in the 14-week course operation plan. Midterm and final exam dates are held on the dates specified in the academic calendar with the decision of the University Senate.

The Matrix for Course & Program Learning Outcomes

No	Program Requirements	Level of Contribution
No	Program Requirements	1	2	3	4	5
1	Improving the basic of theoretical and experimental applications of Classical, Modern and Quantum Physics knowledge obtained through undergraduate education to advanced level.					✔
2	Interpreting the encountered physical problems of advanced level according to physical principles and improving the ability of solving such problems.				✔
3	Obtaining the ability of setting connection between theory and applications about physics.				✔
4	Following and interpreting physics literature and obtaining the ability of preparing advanced pulications using these acqusitions.					✔
5	Gaining the ability of presenting in front of a community with the help of the acqusition through the courses taken during graduate education.				✔
6	Using the background and approaches of different principles at a level of producing new theorems.				✔
7	Obtaining the ability of gathering information, making comparisons, analizing and generating solution to the problems of experimental or theoretical physics.				✔
8	Gaining the ability of following and using the physics literature which progresses daily through contacting with colleagues working on similar subjects at the attended activities such as workshop, seminar and conference.				✔
9	Setting a theoretical model, solving the problems related to that model, approaching experimentally to the model, making the analysis of the experimentally obtained data and interpreting it through the advanced level knowledge obtained through graduate education.					✔
10	Ensuring the constitution of all information that will be used along with the academical life at advanced level and reaching to the level that advanced level researches about physics can be conducted by defining the relationship between the obtained knowledge.				✔

Relations with Education Attainment Program Course Competencies

Program Requirements	DK1
PY1	5
PY2	4
PY3	4
PY4	5
PY5	4
PY6	4
PY7	4
PY8	4
PY9	5
PY10	4

Recommended Sources

Ders Kitabı veya Notu	Ders Kitabı veya Ders Notu bulunmamaktadır.
Diğer Kaynaklar	• J.R.Chistman, Fundamentals of Solid State Physics ,Wiley, 1988. • N. W. Ashcroft, Solid State Physics, Thomson Press (India) Ltd, 2003. • C.Kittel, Solid State Physics, Wiley ,1986.

ECTS credits and course workload

ECTS credits and course workload		Quantity	Duration (Hour)	Total Workload (Hour)
Ders İçi	Class Hours	14	3	42
Ders Dışı	Preparation, After Class Study	14	3	42
	Research	14	3	42
	Interview	14	1	14
	Other Activities	14	1	14
Sınavlar	Midterm 1	1	2	2
	Homework 1	1	4	4
	Final	1	2	2
	Classroom Activities	14	3	42
Total Workload				204
*AKTS = (Total Workload) / 25,5		ECTS Credit of the Course		25.5 7.5