Third Cycle Programmes
    (Doctorate Degree)
Second Cycle Programmes
    (Master's Degree)
First Cycle Programmes
    (Bachelor's Degree)
Short Cycle Programmes
    (Associate's Degree)
 
Second Cycle Programmes (Master's Degree)

THE GRADUATE SCHOOL OF NATURAL AND APPLIED - Physics - Y.Lisans



General Description
History
Graduate program in the Department of Physics, Institute of Science education in the academic year 2008-2009 have been opened. The Master's program in Atomic and Molecular Physics, General Physics, Solid State Physics, Mathematical Physics, Nuclear Physics and High Energy and Plasma Physics master's degree in science, including six major done.
Qualification Awarded
Master Degree
Level of Qualification (Short Cycle , First Cycle , Second Cycle, Third Cycle)
Second Cycle
Specific Admission Requirements
Application to graduate programs among the candidates that meet the student at the beginning of the fall and spring can be half years. Candidates to apply for the Master's program, a bachelor's degree and the doctoral program ALES score in the Senate, not less than 55 points to be determined by the standard must have a standard score of ALES. Admission to graduate programs, in addition to the ALES score will participate in evaluation criteria, the applicant is required to provide other documents for the candidates, which is the level of foreign language knowledge is required and how much weight not less than 50% of the ALES score will be determined by the Senate consideration.
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
Formal
Qualification Requirements and Regulations
To obtain a master's degree in the field of physics for at least two semesters of courses and training during the second semester thesis must see. Period, excluding the thesis seminar to pass, and to achieve at least 24 credit hours must be taken.
Profile of The Programme
The Master's program in Atomic and Molecular Physics, General Physics, Solid State Physics, Mathematical Physics, Nuclear Physics and High Energy and Plasma Physics in the Department, including six master's done. As a graduate student enrolled in courses offered to students from that moment on, as well as the knowledge in the field of laboratory facilities and trained to implement problem-solving skills in interdisciplinary studies.
Occupational Profiles of Graduates With Examples
Access to Further Studies
Upon successful completion of a master's degree candidates, take note of the current ALES and doctorate programs, provided they have adequate knowledge of foreign languages can study.
Examination Regulations, Assessment and Grading
Students for each course at least one midterm and one final examination. Success midterm exam grade of 40% and 60% contribution makes final exam. In order to be successful in a support AA, BA, BB, CB, CC notlarınından student who will be successful. Besides these seminars, special topics, and a thesis entitled to graduate students who are successful.
Graduation Requirements
At least eight courses (24 credits), and the work of the seminar and thesis entitled to graduate students who are successful.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Address: Bozok University / Institute of Science Campus Erdogan Akdag / Atatürk Boulevard 10 Mileage 66100-Yozgat Tel: 0354 242 1032 Fax: 0354 242 1056 E-mail: fbe.sekreter @ bozok.edu.tr Head of Department: Prof. Dr. Recep ŞAHİNGÖZ Tel: 0 354 242 10 21/2597
Facilities
The department available in a total of six laboratories. Student labs Mechanics Laboratory, Electric and Magnetism Laboratory, Modern Physics Laboratory, Optic and Waves Laboratory, Electronics Laboratory I and Electronics Laboratory II Laboratory en assigned.

Key Learning Outcomes
1Gains enough knowledge on a specific area of physics.
2Gains enough knowledge to search the literature, database and the other information sources.
3Gains ability to present a scientific topic.
4In advanced level makes experiment, collects data, reviews, and evaluate the results, in line with current technological developments, identifies problems, generates solutions to problems faced by the laboratory.
5Gains an ability of interdisciplinary work.
6Gains ability to know modern techniques, to choose and operate suitable instruments.
7Gains knowledge on right and efficient usage of physics and equipment used in laboratory.
8Gains the ability of evaluation and present the experimental measurements and observations.
9Gains scientific ethics on data collection, evaluation and presentation stage of results.
10Follows sources related to the field prepared in a foreign language.


Key Programme Learning Outcomes - NQF for HE in Turkey
TYYÇKey Learning Outcomes
12345678910
KNOWLEDGE1
2
SKILLS1
2
3
COMPETENCES (Competence to Work Independently and Take Responsibility)1
2
3
COMPETENCES (Learning Competence)1
COMPETENCES (Communication and Social Competence)1
2
3
4
COMPETENCES (Field Specific Competence)1
2
3


Course Structure Diagram with Credits
1. Semester
No Course Unit Code Course Unit Title Type of Course ECTS
6 FZYSDG-I Elective 0
11 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Compulsory 0
16 FİZ500 SEMINAR Compulsory 0
22 FİZ8XX SPECIAL FIELD COURSE I Compulsory 0
Total 0
 
2. Semester
No Course Unit Code Course Unit Title Type of Course ECTS
6 FZYSDG-II Elective 0
11 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Compulsory 0
18 FİZ500 SEMINAR Compulsory 0
24 FİZ8XX SPECIAL FIELD COURSE II Compulsory 0
Total 0
 
3. Semester
No Course Unit Code Course Unit Title Type of Course ECTS
6 FİZ8XX SPECIAL FIELD COURSE I Compulsory 0
13 FİZ597 THESIS STUDY Compulsory 0
Total 0
 
4. Semester
No Course Unit Code Course Unit Title Type of Course ECTS
6 FİZ8XX SPECIAL FIELD COURSE II Compulsory 0
13 FİZ598 THESIS STUDIES Compulsory 0
Total 0
 
No Course Unit Code Course Unit Title Type of Course ECTS
1 FİZ501 CLASSICAL MECHANICS I Elective 6
2 FİZ502 CLASSICAL MECHANICS II Elective 6
3 FİZ503 NUMERICAL CALCULATION METHOD I Elective 6
4 FİZ504 NUMERİCAL CALCULATİON METHOD Elective 6
5 FİZ505 THERMODYNAMICS Elective 6
6 FİZ506 UNITER SPIN THEORY Elective 6
7 FİZ507 MATHEMATİCAL METHODS FOR PHYSİCS I Elective 6
8 FİZ508 MATHEMATİCAL METHODS FOR PHYSICS Elective 6
9 FİZ509 STATISTICAL MECHANICS I Elective 6
10 FİZ510 STATISTICAL MECHANICS II Elective 6
11 FİZ511 QUANTUM MECHANICS Elective 6
12 FİZ512 QUANTUM MECHANICS II Elective 6
13 FİZ513 SEMICONDUCTOR PHYSICS I Elective 6
14 FİZ514 SEMICONDUCTORS PHYSICS Elective 6
15 FİZ515 SUPERCONDUCTIVITY I Elective 6
16 FİZ516 SUPERCONDUCTIVITY II Elective 6
17 FİZ517 GaAs TRANSISTORS PHYSICS Elective 6
18 FİZ518 SEMICONDUCTOR TECHNOLOGY Elective 6
19 FİZ519 ELECTROMAGNETIC THEORY I Elective 6
20 FİZ520 ELECTROMAGNETIC THEORY II Elective 6
21 FİZ521 SOLID STATE PHYSICS Elective 6
22 FİZ522 SOLID STATE PHYSICS Elective 6
23 FİZ523 ATOM AND MOLECULAR PHYSICS Elective 6
24 FİZ524 ATOM AND MOLECULAR PHYSICS II Elective 6
25 FİZ525 PHASE TRANSITIONS I Elective 6
26 FİZ526 PHASE TRANSITIONS II Elective 6
27 FİZ527 X-RAYS CRYSTALOGRAPHY Elective 6
28 FİZ528 SOLID LIQUID INTERFACE Elective 6
29 FİZ529 CRYSTAL GROWTH PHYSICS Elective 6
30 FİZ530 SOLID STATE ELECTRONIC Elective 6
31 FİZ531 MATERIAL SCIENCE I Elective 6
32 FİZ532 MATERIAL SCIENCE II Elective 6
33 FİZ533 CLASSIC FIELD THEORY Elective 6
34 FİZ534 CRITICAL PHENOMENA AND FAZ TRANSITIONS Elective 6
35 FİZ535 QUANTUM OPTIC AND LASER Elective 6
36 FİZ536 OPTIC WAVE QUIDES THEORY Elective 6
37 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Elective 6
38 FİZ538 INTRODUCTION TO QUANTUM COLOR DYNAMIC Elective 6
39 FİZ539 NUCLEAR PHYSICS I Elective 6
40 FİZ540 NUCLEAR PHYSICS II Elective 6
41 FİZ541 STRUCTURAL DEFECTS IN SOLIDS Elective 6
42 FİZ542 MAGNETIC PROPETIES OF SOLIDS Elective 6
43 FİZ543 PARTICLE PHYSICS I Elective 6
44 FİZ544 PARTICLE PHYSICS II Elective 6
45 FİZ545 FERROMAGNETISM I Elective 6
46 FİZ546 FERROMAGNETISM II Elective 6
47 FİZ547 SPECIAL THEORY OF RELATIVITY Elective 6
48 FİZ548 MAGNETISM Elective 6
49 FİZ549 ASTROPHYSICS Elective 6
50 FİZ550 THERMAL CONDUCTIVITY IN SOLID Elective 6
51 FİZ551 METAL SEMICONDUCTOR JUNCTIONS Elective 6
52 FİZ552 METAL SEMICONDUCTOR JUNCTIONS II Elective 6
53 FİZ553 ELECTRON SPIN RESONANCE Elective 6
54 FİZ554 ELECTRON SPIN RESONANCE II Elective 6
55 FİZ555 QUANTUM CHEMISTRY I Elective 6
56 FİZ556 QUANTUM CHEMISTRY II Elective 6
57 FİZ557 ADVANCED COMPUTER TECHNOLOGİES I Elective 6
58 FİZ558 ADVANCED COMPUTER TECHNOLOGIES II Elective 6
59 FİZ560 MICROCHIP PRODUCTION II Elective 6
60 FİZ561 COMPUTER PROGRAMMING-FORTRAN-I Elective 6
61 FİZ562 COMPUTER PROGRAMMING-FORTRAN-II Elective 6
62 FİZ563 COMPUTER PROGRAMMING-MATLAB Elective 6
63 FİZ564 COMPUTER PROGRAMMING-DELPHI Elective 6
64 FİZ565 ENVIROMENTAL RADİOACTIVITY Elective 6
65 FİZ566 RADIOBIOLOGY Elective 6
66 FİZ567 ACCERELATOR PHYSICS Elective 6
67 FİZ568 NUCLEAR SPECTROSCOPY Elective 6
68 FİZ569 NUCLEAR REACTION DYNAMIC Elective 6
69 FİZ570 RADIATION DOSEMETRY Elective 6
70 FİZ571 OPTIC PROPERTİES OF SEMICONDUCTORS I Elective 6
71 FİZ572 OPTIC PROPERTIES OF SEMICONDUCTORS II Elective 6
72 FİZ573 QUANTUM NANOSTRUCTURES I Elective 6
73 FİZ574 QUANTUM NANOSTRUCTURES II Elective 6
74 FİZ575 NUMERICAL ANALYSIS METHODS IN PHYSICS I Elective 6
75 FİZ576 NUMERICAL ANALYSIS METHODS IN PHYSICS Elective 6
76 FİZ577 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS I Elective 6
77 FİZ578 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS II Elective 6
78 FİZ580 GROUP THEORY AND APPLICATIONS TO PHYSICS Elective 6
79 YBD503 PROFFESIONAL ENGLISH Elective 6
80 YBD504 PROFESSIONAL ENGLISH II Elective 6
No Course Unit Code Course Unit Title Type of Course ECTS
1 FİZ501 CLASSICAL MECHANICS I Elective 6
2 FİZ502 CLASSICAL MECHANICS II Elective 6
3 FİZ503 NUMERICAL CALCULATION METHOD I Elective 6
4 FİZ504 NUMERİCAL CALCULATİON METHOD Elective 6
5 FİZ505 THERMODYNAMICS Elective 6
6 FİZ506 UNITER SPIN THEORY Elective 6
7 FİZ507 MATHEMATİCAL METHODS FOR PHYSİCS I Elective 6
8 FİZ508 MATHEMATİCAL METHODS FOR PHYSICS Elective 6
9 FİZ509 STATISTICAL MECHANICS I Elective 6
10 FİZ510 STATISTICAL MECHANICS II Elective 6
11 FİZ511 QUANTUM MECHANICS Elective 6
12 FİZ512 QUANTUM MECHANICS II Elective 6
13 FİZ513 SEMICONDUCTOR PHYSICS I Elective 6
14 FİZ514 SEMICONDUCTORS PHYSICS Elective 6
15 FİZ515 SUPERCONDUCTIVITY I Elective 6
16 FİZ516 SUPERCONDUCTIVITY II Elective 6
17 FİZ517 GaAs TRANSISTORS PHYSICS Elective 6
18 FİZ518 SEMICONDUCTOR TECHNOLOGY Elective 6
19 FİZ519 ELECTROMAGNETIC THEORY I Elective 6
20 FİZ520 ELECTROMAGNETIC THEORY II Elective 6
21 FİZ521 SOLID STATE PHYSICS Elective 6
22 FİZ522 SOLID STATE PHYSICS Elective 6
23 FİZ523 ATOM AND MOLECULAR PHYSICS Elective 6
24 FİZ524 ATOM AND MOLECULAR PHYSICS II Elective 6
25 FİZ525 PHASE TRANSITIONS I Elective 6
26 FİZ526 PHASE TRANSITIONS II Elective 6
27 FİZ528 SOLID LIQUID INTERFACE Elective 6
28 FİZ529 CRYSTAL GROWTH PHYSICS Elective 6
29 FİZ530 SOLID STATE ELECTRONIC Elective 6
30 FİZ531 MATERIAL SCIENCE I Elective 6
31 FİZ532 MATERIAL SCIENCE II Elective 6
32 FİZ533 CLASSIC FIELD THEORY Elective 6
33 FİZ534 CRITICAL PHENOMENA AND FAZ TRANSITIONS Elective 6
34 FİZ535 QUANTUM OPTIC AND LASER Elective 6
35 FİZ536 OPTIC WAVE QUIDES THEORY Elective 6
36 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Elective 6
37 FİZ538 INTRODUCTION TO QUANTUM COLOR DYNAMIC Elective 6
38 FİZ539 NUCLEAR PHYSICS I Elective 6
39 FİZ540 NUCLEAR PHYSICS II Elective 6
40 FİZ541 STRUCTURAL DEFECTS IN SOLIDS Elective 6
41 FİZ543 PARTICLE PHYSICS I Elective 6
42 FİZ544 PARTICLE PHYSICS II Elective 6
43 FİZ545 FERROMAGNETISM I Elective 6
44 FİZ546 FERROMAGNETISM II Elective 6
45 FİZ547 SPECIAL THEORY OF RELATIVITY Elective 6
46 FİZ548 MAGNETISM Elective 6
47 FİZ549 ASTROPHYSICS Elective 6
48 FİZ550 THERMAL CONDUCTIVITY IN SOLID Elective 6
49 FİZ551 METAL SEMICONDUCTOR JUNCTIONS Elective 6
50 FİZ552 METAL SEMICONDUCTOR JUNCTIONS II Elective 6
51 FİZ553 ELECTRON SPIN RESONANCE Elective 6
52 FİZ554 ELECTRON SPIN RESONANCE II Elective 6
53 FİZ555 QUANTUM CHEMISTRY I Elective 6
54 FİZ556 QUANTUM CHEMISTRY II Elective 6
55 FİZ557 ADVANCED COMPUTER TECHNOLOGİES I Elective 6
56 FİZ558 ADVANCED COMPUTER TECHNOLOGIES II Elective 6
57 FİZ560 MICROCHIP PRODUCTION II Elective 6
58 FİZ561 COMPUTER PROGRAMMING-FORTRAN-I Elective 6
59 FİZ562 COMPUTER PROGRAMMING-FORTRAN-II Elective 6
60 FİZ563 COMPUTER PROGRAMMING-MATLAB Elective 6
61 FİZ564 COMPUTER PROGRAMMING-DELPHI Elective 6
62 FİZ565 ENVIROMENTAL RADİOACTIVITY Elective 6
63 FİZ566 RADIOBIOLOGY Elective 6
64 FİZ567 ACCERELATOR PHYSICS Elective 6
65 FİZ568 NUCLEAR SPECTROSCOPY Elective 6
66 FİZ569 NUCLEAR REACTION DYNAMIC Elective 6
67 FİZ570 RADIATION DOSEMETRY Elective 6
68 FİZ571 OPTIC PROPERTİES OF SEMICONDUCTORS I Elective 6
69 FİZ572 OPTIC PROPERTIES OF SEMICONDUCTORS II Elective 6
70 FİZ573 QUANTUM NANOSTRUCTURES I Elective 6
71 FİZ574 QUANTUM NANOSTRUCTURES II Elective 6
72 FİZ575 NUMERICAL ANALYSIS METHODS IN PHYSICS I Elective 6
73 FİZ576 NUMERICAL ANALYSIS METHODS IN PHYSICS Elective 6
74 FİZ577 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS I Elective 6
75 FİZ578 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS II Elective 6
76 FİZ580 GROUP THEORY AND APPLICATIONS TO PHYSICS Elective 6
77 YBD503 PROFFESIONAL ENGLISH Elective 6
78 YBD504 PROFESSIONAL ENGLISH II Elective 6
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
1 FİZ501 CLASSICAL MECHANICS I Elective 6
2 FİZ502 CLASSICAL MECHANICS II Elective 6
3 FİZ503 NUMERICAL CALCULATION METHOD I Elective 6
4 FİZ504 NUMERİCAL CALCULATİON METHOD Elective 6
5 FİZ505 THERMODYNAMICS Elective 6
6 FİZ506 UNITER SPIN THEORY Elective 6
7 FİZ507 MATHEMATİCAL METHODS FOR PHYSİCS I Elective 6
8 FİZ508 MATHEMATİCAL METHODS FOR PHYSICS Elective 6
9 FİZ509 STATISTICAL MECHANICS I Elective 6
10 FİZ510 STATISTICAL MECHANICS II Elective 6
11 FİZ511 QUANTUM MECHANICS Elective 6
12 FİZ512 QUANTUM MECHANICS II Elective 6
13 FİZ513 SEMICONDUCTOR PHYSICS I Elective 6
14 FİZ514 SEMICONDUCTORS PHYSICS Elective 6
15 FİZ515 SUPERCONDUCTIVITY I Elective 6
16 FİZ516 SUPERCONDUCTIVITY II Elective 6
17 FİZ517 GaAs TRANSISTORS PHYSICS Elective 6
18 FİZ518 SEMICONDUCTOR TECHNOLOGY Elective 6
19 FİZ519 ELECTROMAGNETIC THEORY I Elective 6
20 FİZ520 ELECTROMAGNETIC THEORY II Elective 6
21 FİZ521 SOLID STATE PHYSICS Elective 6
22 FİZ522 SOLID STATE PHYSICS Elective 6
23 FİZ523 ATOM AND MOLECULAR PHYSICS Elective 6
24 FİZ524 ATOM AND MOLECULAR PHYSICS II Elective 6
25 FİZ525 PHASE TRANSITIONS I Elective 6
26 FİZ526 PHASE TRANSITIONS II Elective 6
27 FİZ527 X-RAYS CRYSTALOGRAPHY Elective 6
28 FİZ528 SOLID LIQUID INTERFACE Elective 6
29 FİZ529 CRYSTAL GROWTH PHYSICS Elective 6
30 FİZ530 SOLID STATE ELECTRONIC Elective 6
31 FİZ531 MATERIAL SCIENCE I Elective 6
32 FİZ532 MATERIAL SCIENCE II Elective 6
33 FİZ533 CLASSIC FIELD THEORY Elective 6
34 FİZ534 CRITICAL PHENOMENA AND FAZ TRANSITIONS Elective 6
35 FİZ535 QUANTUM OPTIC AND LASER Elective 6
36 FİZ536 OPTIC WAVE QUIDES THEORY Elective 6
37 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Elective 6
38 FİZ538 INTRODUCTION TO QUANTUM COLOR DYNAMIC Elective 6
39 FİZ539 NUCLEAR PHYSICS I Elective 6
40 FİZ540 NUCLEAR PHYSICS II Elective 6
41 FİZ541 STRUCTURAL DEFECTS IN SOLIDS Elective 6
42 FİZ542 MAGNETIC PROPETIES OF SOLIDS Elective 6
43 FİZ543 PARTICLE PHYSICS I Elective 6
44 FİZ544 PARTICLE PHYSICS II Elective 6
45 FİZ545 FERROMAGNETISM I Elective 6
46 FİZ546 FERROMAGNETISM II Elective 6
47 FİZ547 SPECIAL THEORY OF RELATIVITY Elective 6
48 FİZ548 MAGNETISM Elective 6
49 FİZ549 ASTROPHYSICS Elective 6
50 FİZ550 THERMAL CONDUCTIVITY IN SOLID Elective 6
51 FİZ551 METAL SEMICONDUCTOR JUNCTIONS Elective 6
52 FİZ552 METAL SEMICONDUCTOR JUNCTIONS II Elective 6
53 FİZ553 ELECTRON SPIN RESONANCE Elective 6
54 FİZ554 ELECTRON SPIN RESONANCE II Elective 6
55 FİZ555 QUANTUM CHEMISTRY I Elective 6
56 FİZ556 QUANTUM CHEMISTRY II Elective 6
57 FİZ557 ADVANCED COMPUTER TECHNOLOGİES I Elective 6
58 FİZ558 ADVANCED COMPUTER TECHNOLOGIES II Elective 6
59 FİZ560 MICROCHIP PRODUCTION II Elective 6
60 FİZ561 COMPUTER PROGRAMMING-FORTRAN-I Elective 6
61 FİZ562 COMPUTER PROGRAMMING-FORTRAN-II Elective 6
62 FİZ563 COMPUTER PROGRAMMING-MATLAB Elective 6
63 FİZ564 COMPUTER PROGRAMMING-DELPHI Elective 6
64 FİZ565 ENVIROMENTAL RADİOACTIVITY Elective 6
65 FİZ566 RADIOBIOLOGY Elective 6
66 FİZ567 ACCERELATOR PHYSICS Elective 6
67 FİZ568 NUCLEAR SPECTROSCOPY Elective 6
68 FİZ569 NUCLEAR REACTION DYNAMIC Elective 6
69 FİZ570 RADIATION DOSEMETRY Elective 6
70 FİZ571 OPTIC PROPERTİES OF SEMICONDUCTORS I Elective 6
71 FİZ572 OPTIC PROPERTIES OF SEMICONDUCTORS II Elective 6
72 FİZ573 QUANTUM NANOSTRUCTURES I Elective 6
73 FİZ574 QUANTUM NANOSTRUCTURES II Elective 6
74 FİZ575 NUMERICAL ANALYSIS METHODS IN PHYSICS I Elective 6
75 FİZ576 NUMERICAL ANALYSIS METHODS IN PHYSICS Elective 6
76 FİZ577 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS I Elective 6
77 FİZ578 OPTIC AND ELECTRONIC PROPERTIES OF SOLIDS II Elective 6
78 FİZ580 GROUP THEORY AND APPLICATIONS TO PHYSICS Elective 6
79 YBD503 PROFFESIONAL ENGLISH Elective 6
80 YBD504 PROFESSIONAL ENGLISH II Elective 6
No Course Unit Code Course Unit Title Type of Course ECTS
1 FİZ501 CLASSICAL MECHANICS I Elective 6
2 FİZ502 CLASSICAL MECHANICS II Elective 6
3 FİZ503 NUMERICAL CALCULATION METHOD I Elective 6
4 FİZ504 NUMERİCAL CALCULATİON METHOD Elective 6
5 FİZ505 THERMODYNAMICS Elective 6
6 FİZ506 UNITER SPIN THEORY Elective 6
7 FİZ507 MATHEMATİCAL METHODS FOR PHYSİCS I Elective 6
8 FİZ508 MATHEMATİCAL METHODS FOR PHYSICS Elective 6
9 FİZ509 STATISTICAL MECHANICS I Elective 6
10 FİZ510 STATISTICAL MECHANICS II Elective 6
11 FİZ511 QUANTUM MECHANICS Elective 6
12 FİZ512 QUANTUM MECHANICS II Elective 6
13 FİZ513 SEMICONDUCTOR PHYSICS I Elective 6
14 FİZ514 SEMICONDUCTORS PHYSICS Elective 6
15 FİZ515 SUPERCONDUCTIVITY I Elective 6
16 FİZ516 SUPERCONDUCTIVITY II Elective 6
17 FİZ517 GaAs TRANSISTORS PHYSICS Elective 6
18 FİZ518 SEMICONDUCTOR TECHNOLOGY Elective 6
19 FİZ519 ELECTROMAGNETIC THEORY I Elective 6
20 FİZ520 ELECTROMAGNETIC THEORY II Elective 6
21 FİZ521 SOLID STATE PHYSICS Elective 6
22 FİZ522 SOLID STATE PHYSICS Elective 6
23 FİZ523 ATOM AND MOLECULAR PHYSICS Elective 6
24 FİZ524 ATOM AND MOLECULAR PHYSICS II Elective 6
25 FİZ525 PHASE TRANSITIONS I Elective 6
26 FİZ526 PHASE TRANSITIONS II Elective 6
27 FİZ527 X-RAYS CRYSTALOGRAPHY Elective 6
28 FİZ528 SOLID LIQUID INTERFACE Elective 6
29 FİZ529 CRYSTAL GROWTH PHYSICS Elective 6
30 FİZ530 SOLID STATE ELECTRONIC Elective 6
31 FİZ531 MATERIAL SCIENCE I Elective 6
32 FİZ532 MATERIAL SCIENCE II Elective 6
33 FİZ533 CLASSIC FIELD THEORY Elective 6
34 FİZ534 CRITICAL PHENOMENA AND FAZ TRANSITIONS Elective 6
35 FİZ535 QUANTUM OPTIC AND LASER Elective 6
36 FİZ536 OPTIC WAVE QUIDES THEORY Elective 6
37 FİZ537 SCIENTIFIC TO INVESTIGATE METHOD Elective 6
38 FİZ538 INTRODUCTION TO QUANTUM COLOR DYNAMIC Elective 6
39 FİZ539 NUCLEAR PHYSICS I Elective 6
40 FİZ540 NUCLEAR PHYSICS II Elective 6
41 FİZ542 MAGNETIC PROPETIES OF SOLIDS Elective 6
42 FİZ549 ASTROPHYSICS Elective 6
43 FİZ560 MICROCHIP PRODUCTION II Elective 6
44 FİZ561 COMPUTER PROGRAMMING-FORTRAN-I Elective 6
45 FİZ562 COMPUTER PROGRAMMING-FORTRAN-II Elective 6
46 FİZ568 NUCLEAR SPECTROSCOPY Elective 6
47 FİZ569 NUCLEAR REACTION DYNAMIC Elective 6
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
No Course Unit Code Course Unit Title Type of Course ECTS
 
Yozgat Bozok University, Yozgat / TURKEY • Tel  (pbx): +90 354 217 86 01 • e-mail: uo@bozok.edu.tr