The exercises which develops discussion and innovative ability for actual problem are carried out. These exercises are closely linked to lectures of inorganic and analytical chemistry, and also laboratory practice of inorganic and analytical chemistry, thus that are complemental to each other.
Many advanced and essential experimental and analytical techniques are explained and exercised in detail. Thus that lead deep understanding for advanced synthetic, reactive, and analytical aspect of inorganic chemistry.
The exercises deal with advanced inorganic and analytical chemistry topics. These topics are deeply understood from both theory and practical aspect.
Inorganic chemistry, analytical chemistry, crystallography, exercise, laboratory course
✔ Specialist skills | Intercultural skills | Communication skills | ✔ Critical thinking skills | ✔ Practical and/or problem-solving skills |
Exercise class. Presentation of the solution of the exercise. Mini exam and discussion on the answer.
Course schedule | Required learning | |
---|---|---|
Class 1 | Ligand Field Theory 1 | Describe and explain structure and bonding in transition metal complexes using ligand field theory. |
Class 2 | Ligand Field Theory 2 | Describe and explain structure and bonding in transition metal complexes using ligand field theory. |
Class 3 | Ligand Field Theory 3 | Describe and explain structure and bonding in transition metal complexes using ligand field theory. |
Class 4 | Symmetry and point group of molecules 1 | Symmetry and point group of molecules Prediction of photophysical properties of molecules based on their structure using group theory |
Class 5 | Symmetry and point group of molecules 2 | Symmetry and point group of molecules Prediction of photophysical properties of molecules based on their structure using group theory |
Class 6 | Symmetry and point group of molecules 3 | Symmetry and point group of molecules Prediction of photophysical properties of molecules based on their structure using group theory |
Class 7 | Acid-base equilibrium and the oxidation-reduction reaction 1 | Understanding of basic idea of Acid-base equilibrium and the oxidation-reduction reaction with calculation. |
Class 8 | Acid-base equilibrium and the oxidation-reduction reaction 2 | Understanding of basic idea of Acid-base equilibrium and the oxidation-reduction reaction with calculation. |
Class 9 | Acid-base equilibrium and the oxidation-reduction reaction 3 | Understanding of basic idea of Acid-base equilibrium and the oxidation-reduction reaction with calculation. |
Class 10 | Powder X-ray diffraction 1 | Indexing of the powder X-ray diffraction pattern of inorganic compounds, then, determine crystal system (cubic cell) and calculation of the lattice constants of the unit cell. |
Class 11 | Powder X-ray diffraction 2 | Indexing of the powder X-ray diffraction pattern of inorganic compounds, then, determine crystal system (cubic cell) and calculation of the lattice constants of the unit cell. |
Class 12 | Powder X-ray diffraction 3 | Indexing of the powder X-ray diffraction pattern of inorganic compounds, then, determine crystal system (cubic cell) and calculation of the lattice constants of the unit cell. |
Class 13 | Discussion and presentation 1 | Discussion on the result and presentation |
Class 14 | Discussion and presentation 2 | Discussion on the result and presentation |
Class 15 | Discussion and presentation | Discussion on the result and presentation |
"Inorganic and analytical chemistry laboratory course text" (Department of chemistry) and print distribution
Some other useful text books are introduced in the class.
Presentation in the class, mini examinations.
Closely related and complementary to "laboratory course for inorganic and analytical chemistry"