Türkçe English Curriculum Key Learning Outcomes
Physics
General Description
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Brief History
The Physics Department was formed in 1982 and accepted students in 1983. There are five major research areas in the department: General Physics, Nuclear Physics, High Energy and Plasma Physics, Atomic and Molecular Physics and Solid State Physics. The department accepts about 70 undergraduate students in every academic year and the undergraduate curriculum as similar as many famous universities in the world. The department also offers postgraduate education. The Physics Department gives a good knowledge about applied physics as well as fundamental physics, in order to train the students as a capable researcher. Our graduates find employment in a wide range of activities, not just in physics, but also in materials science, engineering, electronics, computing. The teaching and research staff engaged on a wide range of research areas, including Nuclear Physics, Solid State Physics, High Energy and Plasma Physics and Atomic and Molecular Physics. The Department is involved with a number of research laboratories such as Nuclear, Solid State and Atomic and Molecular Physics. The department prepares the graduates in research activities and international cooperation for the key technologies in physics. Our purpose is to encourage the teaching staff and the students to spend teaching periods abroad by Erasmus mobility programme. We welcome students and researchers from other countries.
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Qualification Awarded
Physics program is subjected to 90-120 ECTS credits in higher education. In Master Program without thesis, it is required to 120 ECTS. The Master´s Degree in Physics program is awarded to the graduates who have successfully completed all courses in the curriculum.
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Level of Qualification
Second Cycle
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Specific Admission Requirements
Science degree in Bachelor and ALES (numeric) score which is determined by the Senate of Uludag University is required. Students must have minimum score determined by Senate in UDS, TOEFL, TOEFL or equivalent examinations accepted by YÖK, or foreign language exam which is conducted by the School of Foreign Languages in one of foreign languages in English, German, French, Italian, Russian, Arabic. UU Senate decides the Equivalence of other foreign language documents. For foreign candidates, Tomer candidates Turkish competency given by TOMER and ALES exam results or GRE, GMAT and other exams which are by YOK in international level.
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Specific arrangements for the recognition of prior learning
The provisions in “Regulation on Transfer among Associate and Undergraduate Degree Programs, Double Major, and Subspecialty and the Principals of Credit Transfer among Institutions in Higher Education Institutions” are applied.
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Qualification Requirements and Regulations
The graduate program students throughout their education a total of 21-24 credits (60 ECTS) is not less than a minimum of seven courses, a seminar and thesis work must succeed. The students of Physics program who meet the relevant requirements are awarded an MS degree. The course concerned in this note is to be successful, must be at least 70 out of 100.
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Profile of The Programme
Physics Department, Faculty of Arts and Sciences has 9 Prof. Dr., 9 Assoc. Dr., 4 Asst. Assoc. Dr., 4 research assistants and 1 Physicist. The teaching and research staff engaged in a wide range of research areas including General Physics, Nuclear Physics, Solid State Physics, High Energy and Plasma Physics, Atomic and Molecular Physics.
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Key Learning Outcomes & Classified & Comparative
1. Contribute the progression of physics by producing an innovative idea, skill, design and/or practice or by adapting an already known idea, skill, design, and/or practice to a different field independently
2. Broaden the borders of the knowledge in physics by producing or interpreting an original work or publishing at least one scientific paper in the field in national and/or international refereed journals
3. Demonstrate leadership in contexts requiring innovative and interdisciplinary problem solving
4. Develop new ideas and methods in physics by using high level mental processes such as creative and critical thinking, problem solving and decision making
5. Investigate and improve social connections and their conducting norms and manage the actions to change them when necessary
6. Defend original views when exchanging ideas in physics with professionals and communicate effectively by showing competence in the field
7. Ability to communicate and discuss orally, in written and visually with peers by using a foreign language at least at a level of European Language Portfolio C1 General Level
8. Contribute to the transition of the community to an information society and its sustainability process by introducing scientific, technological, social or cultural improvements
9. Demonstrate functional interaction by using strategic decision making processes in solving problems encountered in physics
10. Contribute to the solution finding process regarding social, scientific, cultural and ethical problems in the field and support the development of these values
11. In solving physics problems encountered in strategic decision making processes related to the field interacts with the functional use
12. Physical space-related issues encountered in social, scientific, cultural and ethical values and supports the development contributes to the solution of problems
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Occupational Profiles of Graduates With Examples
Research and development laboratories, industrial organizations, researchers and quality control specialist. Master´s and doctorate academic job opportunities for successful students participating in the program, an expert researcher in the research institutions and health physicist. Teaching in the field of education.
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Access to Further Studies
The graduates holding masters Degree are eligible to apply to PhD Degree programs at national level and /or international level both in the same and in related disciplines
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Examination Regulations, Assessment and Grading
This section is explained in the courses description and implementation forms.
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Graduation Requirements
Students must successfully pass all compulsory and elective courses on the program and who have successfully completed all courses in the cirriculum will be given masters degree in physics program. For graduation, at least one article published or accepted for publication in national / international refereed journals is required.
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Mode of Study
Full-Time
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Address and Contact Details
Program Başkanı: Prof. Dr. Nilgün DEMİR
E-posta: dnilgun@uludag.edu.tr
Tel.: +90 224 2941702
Bologna Koordinatörü: Prof. Dr. Nil KÜÇÜK
E-posta: nilkoc@uludag.edu.tr
Tel.: +90 224 2941705
Bologna Koordinatörü: Doç. Dr. Fatma KOÇAK
E-posta: fkocak@uludag.edu.tr
Tel.: +90 224 2941710
Adres: Bursa Uludağ Üniversitesi
Fen Edebiyat Fakültesi
Fizik Bölümü
16059 Bursa
TÜRKİYE
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Facilities
Arts and Sciences Faculty, Physics Department has 9 Prof. Dr., 9 Assoc. Dr., 4 Asst. Assoc. Dr., 4 research assistants and 1 Physicist. Physics department has 5 branches such as General Physics , Nuclear Physics, High Energy and Plasma Physics, Atomic and Molecular Physics and Solid State Physics.
1. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6181 ADVANCED TOPICS IN PHD THESIS I Compulsory 4 0 0 5
FZK6191 THESIS CONSULTING I Compulsory 0 1 0 1
FZK6207 NANOPHOTONICS(GENEL FIZ.A.B.D.IÇIN) Compulsory 3 0 0 6
Click to choose optional courses. 7,5
Click to choose optional courses. 10,5
Total 30
2. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FEN6002 TECHNOLOGY TRANSFER, R-D AND INNOVATION Compulsory 2 0 0 2
FZK6102 NUCLEARMAGNETICRESONANCE II (ATOM VE MOLKUL FIZIĞI A.B.D.IÇIN) Compulsory 3 0 0 6
FZK6172 SEMINAR Compulsory 0 2 0 4
FZK6182 ADVANCED TOPICS IN PHD THESIS II Compulsory 4 0 0 5
FZK6192 THESIS CONSULTING II Compulsory 0 1 0 1
Click to choose optional courses. 6
Click to choose optional courses. 6
Total 30
3. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6183 ADVANCED TOPICS IN PHD THESIS III Compulsory 4 0 0 5
FZK6193 THESIS CONSULTING III Compulsory 0 1 0 15
YET6177 PHD PROFICIENCY EXAMINATION Compulsory 0 0 0 10
Total 30
4. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6184 ADVANCED TOPICS IN PHD THESIS IV Compulsory 4 0 0 5
FZK6194 THESIS CONSULTANTS IV Compulsory 0 1 0 25
Total 30
5. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6185 ADVANCED TOPICS IN PHD THESIS V Compulsory 4 0 0 5
FZK6195 THESIS CONSULTING V Compulsory 0 1 0 25
Total 30
6. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6186 ADVANCED TOPICS IN PHD THESIS VI Compulsory 4 0 0 5
FZK6196 THESIS CONSULTING VI Compulsory 0 1 0 25
Total 30
7. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6187 PHD SPECIALISED FIELD COURSE VII Compulsory 4 0 0 5
FZK6197 THESIS CONSULTING VII Compulsory 0 1 0 25
Total 30
8. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6188 PHD SPECIALISED FIELD COURSE VIII Compulsory 4 0 0 5
FZK6198 THESIS CONSULTING VIII Compulsory 0 1 0 25
Total 30
1. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
FZK6103 ELECTRON SPIN RESONANCE I Optional 3 0 0 6
FZK6105 PHYSICAL OPTICS I Optional 3 0 0 6
FZK6107 THERMOLUMINESCENCE AND DATA ANALYSIS I Optional 3 0 0 6
FZK6109 HIGH ENERGY GAS CHAMBER PHYSICS II Optional 3 0 0 6
FZK6111 COMPUTATIONAL TECHNIQUES IN HIGH ENERGY PHYSICS II Optional 3 0 0 6
FZK6115 ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY I Optional 3 0 0 6
FZK6203 DIELECTRICPROPERTIES OF MATERIALS II Optional 3 0 0 6
FZK6205 SUPERSYMMETRY II Optional 3 0 0 6
FZK6301 NUMERICAL ANALYSIS METHODS IN MAGNETISM Optional 3 0 0 6
FZK6305 X-RAYSAND APPLICATIONS Optional 2 2 0 6
FZK6307 MICROMAGNETISM I Optional 3 0 0 6
FZK6311 HETEROJUNCTIONSAND METAL-SEMICONDUKTORJUNCTIONS Optional 3 0 0 6
FZK6315 MAGNETICCORESANDPROPERTIES I Optional 3 0 0 6
FZK6317 DIODE LASERS I Optional 3 0 0 6
FZK6319 PHOTONICSANDLASERS Optional 3 0 0 6
FZK6323 THERMOELECTRIC COOLING Optional 3 0 0 6
FZK6325 THERMOELECTRIC SEMICONDUCTORS Optional 3 0 0 6
FZK6327 MAGNETIC NANOPARTICLES Optional 3 0 0 6
FZK6401 MATHEMATICAL METHODS IN PHYSICS II Optional 3 0 0 6
FZK6503 ADVANCED RADIATION PHYSICS II Optional 3 0 0 6
FZK6507 RADIATION AND RADIATION DOSIMETRY Optional 3 0 0 6
FZK6601 ELECTROWEAKINTERACTIONS Optional 3 0 0 6
FZK6603 LIEALGEBRA IN PARTICLEPHYSICS Optional 3 0 0 6
FZK6605 QUANTUM ELECTRODYNAMICS Optional 3 0 0 6
FZK6607 HADRON PHYSICS AND QUARK MODEL Optional 3 0 0 6
FZK6609 KUANTUM ALANLAR TEORISI II Optional 3 0 0 6
FZK6613 ADVANCED SOLIDIFICATION TECHNIQUES Optional 3 0 0 6
FZK6615 HIGH ENERGY DETECTORS II Optional 3 0 0 6
FZK6617 NUMERICAL APPLICATIONS FORNUCLEAREVENTS I Optional 3 0 0 6
PHYS6119 HIGH ENERGY GAS CHAMBER PHYSICS II Optional 3 0 0 6
Optional
FZK6101 NUCLEARMAGNETICRESONANCE I(ATOM VE MOLEKUL FIZ.A.B.D. IÇIN) Optional 3 0 0 6
FZK6303 PROPERTIES OF SOLID MATERIALS I(KATIHALFIZ.A.B.D.IÇIN) Optional 3 0 0 6
FZK6501 ADVANCED NUCLEAR PHYSICS II (NUKLEER FIZ.A.B.D. IÇIN) Optional 3 0 0 6
2. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
Optional
FZK6608 QUANTUMFIELDTHEORY I (YUK.EN.FIZ.A.B.D IÇIN) Optional 3 0 0 6
FZK6104 ELECTRON SPIN RESONANCE II Optional 3 0 0 6
FZK6106 PHYSICAL OPTICS II Optional 3 0 0 6
FZK6108 THERMOLUMINESCENCE AND DATA ANALYSIS II Optional 3 0 0 6
FZK6110 GENERAL RELATIVITY Optional 3 0 0 6
FZK6112 BEYOND THE STANDARD MODEL II Optional 3 0 0 6
FZK6114 ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY II Optional 3 0 0 6
FZK6202 ELECTRONMICROSCOPESAND APPLICATIONS Optional 2 2 0 6
FZK6204 SUPERSYMMETRY IV Optional 3 0 0 6
FZK6304 PROPERTIES OF SOLID MATTEIALS I Optional 3 0 0 6
FZK6308 MICROMAGNETISM II Optional 3 0 0 6
FZK6310 ADVANCED MAGNETICMATERIALS II Optional 3 0 0 6
FZK6312 NANOPHYSICSANDNANOSCIENCE Optional 3 0 0 6
FZK6314 OPTICAL PROPERTIES OF SEMICONDOCTORS Optional 3 0 0 6
FZK6316 MAGNETICCORESANDPROPERTIES II Optional 3 0 0 6
FZK6318 DIODE LASERS II Optional 3 0 0 6
FZK6324 THERMOELECTRICS SYSTEMS AND APPLICATION Optional 3 0 0 6
FZK6326 LASER SYSTEMS Optional 3 0 0 6
FZK6328 INFRARED AND RAMAN SPECTROSCOPY Optional 3 0 0 6
FZK6402 ADVANCED QUANTUM MECHANICS II Optional 3 0 0 6
FZK6502 NUCLEAR SHELL MODEL Optional 3 0 0 6
FZK6602 ELEMENTARYPARTICLESPHYSICS II Optional 3 0 0 6
FZK6604 GAUGE THEORIES Optional 3 0 0 6
FZK6606 QUANTUM CHROMODYNAMICS Optional 3 0 0 6
FZK6614 ORGANIC ELECTRONIC Optional 3 0 0 6
FZK6616 SIMULATION TECHNIQUES IN HIGH ENERGY PHYSICS II Optional 3 0 0 6
FZK6618 CHARACTERIZATION OF NEW GENERATION PARTICLE DETECTORS Optional 3 0 0 6
FZK6620 CHARACTERIZATION CALCULATIONS FOR PARTICLE DETECTORS Optional 3 0 0 6
FZK6622 NUMERICAL APPLICATIONS FORNUCLEAREVENTS II Optional 2 2 0 6
PHYS6624 CHARACTERIZATION OF NEW GENERATION PARTICLE DETECTORS Optional 3 0 0 6
Bologna İletişim
Mail : bologna@uludag.edu.tr
Tasarım & Kodlama
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