(1) Surveying inorganic compounds.
(2) Mastering nomenclature of inorganic compounds.
(3) Investigating chemical bonds in molecules and molecular symmetry.
(4) Understanding oxidation and reduction.
(5) Understanding ligand-field theory of transition metal complexes.
(6) Knowing organometallic compounds.
Surveying inorganic chemistry.
VSEPR, Molecular symmetry, Oxidation and reduction, Ligand-field theory, Organometallic compounds
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Each lecture includes quiz.
Course schedule | Required learning | |
---|---|---|
Class 1 | Elements and periodic table | To learn how to calculate the effective nuclear charge. |
Class 2 | Molecule and the model | |
Class 3 | Molecular symmetry and point group | |
Class 4 | Ionic solids and metals | |
Class 5 | Inorganic reaction | |
Class 6 | Half reaction and battery in oxidation and reduction | |
Class 7 | Using potential data in oxidation and reduction | |
Class 8 | Transition metal complexes | |
Class 9 | Ligand-field splitting | |
Class 10 | Chemistry of non-transition metals | |
Class 11 | Chemistry of non-transition elements | |
Class 12 | Chemistry of halogen and chalcogenides | |
Class 13 | Organometallic compounds | |
Class 14 | Transition metal chemistry | |
Class 15 | Character table |
Ogino, Hida, and Okazaki Basic Inorganic Chemistry
Atkins "Physical Chemistry" Ed. 10, Chapter 11.
Quiz and examination
None