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About the Course

Department Profile
Course unit title Level of course unit Course unit code Type of course unit Semester of course unit Local credit ECTS credit Syllabus
ADVANCED SPECTROSCOPY II Third cycle EAK 606 1 8.00 8.00 Print
   
Description of course unit
Prerequisites and course requisities No
Language of instruction turkish
Coordinator PROF. DR. MUSTAFA SOYLAK
Lecturer(s) PROF. DR. MUSTAFA SOYLAK
Teaching assitant(s) ARŞ. GÖR. DÖNAY YUVALI
Mode of delivery face to face
Course objective It gives information about the spectroscopic topics determined in the course description to the students. They prepare the bases of the thesis studies for the doctor who will be done in the Research Laboratory for characterization.
Course description Spectroscopy, Types and basic principles, introduction and detailed examination of spectroscopic methods

Course contents
1 Introduction to spectroscopy, types of interaction with matter based on electromagnetic radiation
2 Molecular spectroscopy, molecular energy levels, Absorption spectra.
3 Important molecular spectroscopic techniques: UV, IR-Raman, NMR and MS.
4 UV spectrum, theory, molecular electronic transition types and energies
5 Instrumentation, characteristic absorptions of organic compounds, structure design,
6 IR spectroscopy, theory, instrumentation, applications, Raman spectroscopy
7 Midterm
8 1H-NMR spectroscopic evaluation of structure, examples and applications.
9 13C-NMR spectra, structure and structure evaluation.
10 X-ray methods
11 Structure analysis by x-ray diffraction method
12 Structural component analysis with x-ray fluorescence methods
13 Applications of IR, UV, x-rays and NMR spectroscopes, evaluation of spectra together and examples of structure identification.
14 IR, UV, x ışınları ve NMR spektroskopilerinin uygulamaları, spektrumların beraber değerlendirilmesi ve yapı tayini örnekleri.
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Learning outcomes of the course unit
1 Learn about electromagnetic radiation, its interactions with atoms and molecules
2 Learn about absorption, diffraction and fluorescence laws
3 Learn how spectrophotometer, based analysis
4 IR, NMR and X-ray spectrum solutions, practical applications
5 Organic and inorganic reagents and their spectra
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*Contribution level of the course unit to the key learning outcomes
1 To be able to develop the ability and knowledge about the application of nurses and nursing theories
2 To be able to create new information by integrating information in the field of women health and gynaecological nursing and information came from another discipline
3 A problem in the field of women health and gynaecological nursing, to be able to build independently, to be able to develop a solution method, to be able to solve, to be able to evaluate and perform results if necessary
4 To be able to critically evaluate information about the field of women health and gynaecological nursing, to be able to direct learning and to be able to conduct advanced studies as an independent
5 To be able to share social, scientific and ethical values by considering them at the stages of data collection, interpretation and announced in the field of women health and gynaecological nursing
6 To be able to use the absorbed knowledge and problem solving skills in the women health and gynaecological nursing at interdisciplinary studies
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Number of stars refer to level of contribution from 1 (the least) to 5 (the most)

Planned learning activities, teaching methods and ECTS work load
  Quantity Time (hour) Quantity*Time (hour)
Lectures (face to face teaching) 14 3 42
Study hours out of classroom (study before and after the class) 10 4 40
Homework 5 5 25
Presentation / seminar 3 1 3
Quiz 0 0 0
Preparation for midterm exams 0 0 0
Midterm exams 0 0 0
Project (term paper) 0 0 0
Laboratuar 0 0 0
Field study 0 0 0
Preparation for final exam 7 7 49
Final exam 1 3 3
Research 5 7 35
Total work load     197
ECTS     8.00

Assessment methods and criteria
Evaluation during semester Quantity Percentage
Midterm exam 0 40
Quiz 0 0
Homework 4 15
Semester total   55
Contribution ratio of evaluation during semester to success   40
Contribution ratio of final exam to success   60
General total   100

Recommended and required reading
Textbook Erdik, E., Organik Kimyada Spektroskopik Yöntemler, Gazi Büro Kitabevi, Ankara, Malzeme bilimi ve mühendisliği, Willam D. Callister, David G. Rethwish, 1993. • Organik Kimya, R.J. Fessenden, J.S. Fessenden, M.W. Logue, Çeviri Editörü: T. Uyar, Güneş Kitabevi, 6. Baskı (2001). • Organik Kimya, G. Solomons, C. Fryhle, Çeviri Editörleri: G. Okay, Y. Yıldırır, Literatür Kitabevi, 7. Baskı (2002). Skoog, D.A., Holler, F.J. and Nieman,T.A., Principles of Instrumental Analysis, 5th Ed., Harcourt Brace College Publishing,1998, Türkçe çeviri, ENSTRÜMANTAL ANALİZ İlkeleri, Bilim Yayıncılık,5.baskı
Additional references Prof. Dr. Attila Yıldız,Prof. Dr. Ömer Genç, Enstrümantal Analiz, Hacettepe Üniversitesi Yayınları,1993, Ankara

Files related to the course unit