Eskisehir Technical University Info Package Eskisehir Technical University Info Package
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About the Program Educational Objectives Key Learning Outcomes Course Structure Diagram with Credits Field Qualifications Matrix of Course& Program Qualifications Matrix of Program Outcomes&Field Qualifications
  • Faculty of Science
  • Department of Physics
  • Course Structure Diagram with Credits
  • Structural and Vibrational Theory of Molecules
  • Description
  • Description
  • Learning Outcomes
  • Course's Contribution to Prog.
  • Learning Outcomes & Program Qualifications

Course Introduction Information

Code - Course Title FİZ449 - Structural and Vibrational Theory of Molecules
Course Type Elective Courses
Language of Instruction Türkçe
Laboratory + Practice 2+0
ECTS 3.0
Course Instructor(s) PROFESÖR DOKTOR NİHAL KUŞ
Mode of Delivery Lecture, Discussion, Question-and-Answer, Team/Group Work, Report Preparation and/or Presentation
Prerequisites There are no prerequisites or supplementary conditions for this course.
Courses Recomended Atomic and Molecular Physics
Recommended Reading List Kuş N., Sagdinc S., Fausto R., Infrared Spectrum and UV-Induced Photochemistry of Matrix-Isolated 5-Hydroxyquinoline, 2015.Kuş N., Fausto R., “Effects of the matrix and intramolecular interactions on the stability of the higher-energy conformers of 2-fluorobenzoic acid”, 2017.Kuş N.,"Theoretical and infrared investigation of 2-acetylpyridine isolated in solid nitrogen and in neat condensed phases, 2016.
Assessment methods and criteria The midterm and final exams will be conducted in written and practical formats.
Work Placement
Sustainability Development Goals

Content

Weeks Topics
Week - 1 "Classical mechanical theoretical foundations of molecular structure
Week - 2 Quantum mechanical theoretical foundations of molecular structure
Week - 3 Concepts of stereochemistry
Week - 4 Dipole-Dipole interaction
Week - 5 Polarity of molecules and dipole moment
Week - 6 Hydrogen bonding in molecules
Week - 7 Interactions between molecules
Week - 8 Introduction to vibrational spectroscopy
Week - 9 Classical and quantum mechanical theory of molecular vibrations
Week - 10 Theory of vibrational spectroscopy
Week - 11 Infrared spectroscopy
Week - 12 Raman spectroscopy
Week - 13 Dependence of vibrational spectroscopy on molecular structure
Week - 14 EN: Matrix isolation technique and spectroscopy

Learning Activities and Teaching Methods

  • Teaching Methods
  • Lecture
  • Discussion
  • Question & Answer
  • Team/Group Work
  • Problem Solving
  • Proje Design/Management
  • Competences
  • Productive
  • Rational
  • Creative
  • Problem solving
  • Information Management
  • To work autonomously
  • To work in interdisciplinary projects
  • Project Design and Management
  • To work in international projects

Assessment Methods

Assessment Method and Passing Requirements
Quamtity Percentage (%)
Final Exam 1 60
Practice 1 40
Toplam (%) 100
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