Basic physicochemical properties of chemical structures depend on hydrogen bonding as much as molecular structures. In this course, it is intended to make predictions on the different features when assets and strengths of hydrogen bonds identified
20
Contribution of the Course to Professional Development
Acquires the ability to interpret chemical structures theoretically.
21
Learning Outcomes:
1
Learning hydrogen bonding concept and how the hydrogen bonding could be determined.; ;
2
Defining the weak-energy interactions and learning the difference from hydrogen bonds.; ;
22
Course Content:
Week
Theoretical
Practical
1
Chemical bonds
2
Chemical bonds
3
The definition of the weak energy interactions
4
The definition of the weak energy interactions
5
London forces
6
Hydrogen bonding
7
Hydrogen bonding
8
Repetition of previous lessons and MIDTERM exam
9
Dipole-dipole interactions
10
Dipole-dipole interactions
11
Dipole-dipole interactions
12
Interactions of weak energy bonds
13
Interactions of weak energy bonds
14
Interactions of weak energy bonds
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Textbooks, References and/or Other Materials:
1. Dewar, M. J. S., The Molecular Orbital Theory of Organic Chemistry, Mc. Graw Hill, Newyork, 1979. 2. Martin Klessinger, Elektronen Structure Organisher Moleküle, Verlag Chemie, 1982. 3. Proble’mes de Chimie Physique, Atomistique of Liaison Chimique Masson & Cie, Paris, 1977. 4. Fonde’ments The’orique des Recherches des Reactions Inte’rmole’culaires, CNRS, 1975
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Assesment
TERM LEARNING ACTIVITIES
NUMBER
PERCENT
Midterm Exam
1
40
Quiz
0
0
Homeworks, Performances
0
0
Final Exam
1
60
Total
2
100
Contribution of Term (Year) Learning Activities to Success Grade
40
Contribution of Final Exam to Success Grade
60
Total
100
Measurement and Evaluation Techniques Used in the Course
Measurement and evaluation is carried out according to the priciples of Bursa Uludag University Associate and Undergraduate Education Regulation.
Information
The relative evoluation system is applied. 1 Midterm and 1 Final exams are held.
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ECTS / WORK LOAD TABLE
Activites
NUMBER
TIME [Hour]
Total WorkLoad [Hour]
Theoretical
14
4
56
Practicals/Labs
0
0
0
Self Study and Preparation
14
3
42
Homeworks, Performances
0
9
54
Projects
0
0
0
Field Studies
0
0
0
Midtermexams
1
10
10
Others
0
0
0
Final Exams
1
10
10
Total WorkLoad
192
Total workload/ 30 hr
6,07
ECTS Credit of the Course
6
26
CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS
