| INORGANIC CHEMISTRY 1 |
| Course Name |
Code |
Regular Semester |
ECTS Credits |
Credits |
Lecture |
3 |
| Application |
0 |
| INORGANIC CHEMISTRY 1 |
0242031 |
3 |
5 |
3 |
Laboratory
(Hour/Week) |
2 | |
| Course Language |
Turkish |
| Compulsory or Elective |
Compulsory |
| Equipment |
- |
| Instructor |
Inorganic Chemistry Department |
| Course Contents |
The structure of atom/ Bohr's atom model, Schrödinger equation, quantum theory/ Periodic table, light, electromagnetic spectrum and atomic spectrum/ Periodic table, light, electromagnetic spectrum and atomic spectrum/ Ionic bonds, ionic solids, X-ray crystallography,crystal energy/ Covalent bond, Lewis bond theory, VSEPR model, Valence Bond Theory and hybridization/ Molecular orbital theory/ Metalic bond and conductivity/ Intermolecular forces/ Acids, bases and solvents |
| Course Objectives |
- Theoric information about atomic structure, chemical bonds and acids and bases
|
Course Outcomes
(The
knowledge and the skills that the student will gain at the end of
the course) |
- It has been explained atomic structure, chemical bonds in one molecule and intermolecular forces. Students can interpret about molecule shapes and its properties
|
| Textbook |
- It wiil be handed to student in every week
|
| Additional References |
- İnorganik Kimya; Gary Miessler, Donald A. Torr, Palme Yayıncılık, 2002
- Anorganik Kimya, Halis Ölmez, Veysel T.Yılmaz, Furkan Kitabevi, Samsun, 1998.
- Kavramlarla Anorganik Kimya, Bekir Çetinkaya, İnönü Üniv. Fen-Ed. Yayınları, 1993.
- Chemistry; J.Mcmorry, R.C. Fay, Prentice-Hall Int. Lim. London, 1998.
| |
| Prerequisite Courses |
General Chemistry I and General Chemistry II |
| Prerequisite Subjects |
Atomic structure, light and atomic spectrum, chemical bonds, periodic table |
| Homework/Project |
- |
| Laboratory |
- |
| Computer Applications |
- |
| Additional Practices |
- | |
| Course Evaluation
Criteria |
|
Number |
Effective Proportion % |
| Midterm Exams |
2 |
60 |
| Quiz |
- |
- |
| Homework |
- |
- |
| Term Projects |
- |
- |
| Term Papers |
- |
- |
| Laboratory |
- |
- |
| Other |
- |
- |
| Final Exam |
1 |
40 | |
| Division of
Course Credit (%) |
Basic Sciences |
100 % |
| Basic Engineering and
Departmental Core Courses |
- % |
| Departmental Core Courses |
- % |
| Social Sciences |
- % | |
|
| WEEKLY COURSE PLAN |
| Week |
Subject |
| 1 |
The structure of atom and atom theories, Schrödinger equation, quantum theory |
| 2 |
Light and electromagnetic spectrum and atomic spectrum |
| 3 |
Periodic table, effective nuclear charge, periodic properties |
| 4 |
Ionic bond, ionic solids, unit cell in crystalline solids, X-ray crystallography, , Crystal energy |
| 5 |
Covalent bond, Lewis structure |
| 6 |
Valence-shell electron-pair repulsion model |
| 7 |
I. exam |
| 8 |
Valence bond theory, hybridization and molecule shapes, sigma and pi bonds |
| 9 |
Molecule orbital theory for molecules with same atom |
| 10 |
Molecule orbital theory for molecules with different atom |
| 11 |
Metalllic bond and metallic crystals |
| 12 |
Conductivity, insulators, semiconductors, superconductors |
| 13 |
II.exam |
| 14 |
Intermolecular forces |
| 15 |
Acids, bases and solvents |
|
|
| Prepared by |
Naciye Coşkun |
Date |
27.02.2004 | |