| Course unit title |
: |
Inorganic Chemistry I (Inorganic Structure and Reactivity) |
| Course unit code |
: |
DAJ61023 |
| Type of course unit |
: |
Compulsory |
| Level of course unit |
: |
First cycle Bachelor |
| Year of study when the course unitis delivered |
: |
1st year |
| Semester/trimester when the course unitis delivered |
: |
2nd semester |
| Number of ECTS credits allocated |
: |
3 SKS/ 4.8 ECTS |
| Name of lecturer(s) |
: |
Dr. Akram La Kilo, S.Pd., M.Si. |
| Learning outcomes of the course unit |
: |
- Explain the electronic structure of the atom and the periodic properties of the elements
- Explain and analyze the structure of stable compounds, and explain the intermolecular forces
- Explain the meaning of metallic bonds and provide examples of quantitative metal bonding models
- Explain the metal bonding model based on the molecular orbital theory (band theory)
- Explain the properties of metals and reveal the reasons for each of these properties
- Explain and predict metal structures, and illustrate using VESTA
- Explain and give examples of alloys
- Analyze the possibility of not forming an alloy
- Synthesize and evaluate the use of alloys in the medical world based on the synthesis results published in international articles
- Explain ionic bonding, model and size of ions, hydrate salt, polarization and covalence, and describe and predict the crystal structure of ions
- Explain the thermodynamics of the formation of ionic and covalent compounds and the process of dissolving ionic compounds
- Constructing the Born-Haber cycle for the formation of ionic compounds
- Explain Bronsted Lowry, Lewis acid-base dissolution and acid-base systems, acid-base oxide reactions, and be able to analyze the application of Pearson's hard and soft acids and bases
- Explain oxidation and reduction and electrode potential as a function of thermodynamics
- Predict species and types in oxidation reactions using Latimer, Frost, and Pourbaix diagrams
|
| Mode of delivery |
: |
Face to face |
| Prerequisites and co-requisites |
: |
There is no prerequisite or co-requisite for this course. |
| Course content |
: |
- Electronic Structure
- Properties of the Periodic Table of Elements
- Covalent Bonding
- Metal Bonding
- Ionic Bonding
- Inorganic Thermodynamics
- Solvent Systems and Acid Base Behavior
- Oxidation and Reduction
|
| Recommended or required Reading and other learning resources/tools |
: |
- La Kilo, A. (2018). Kimia Anorganik: Struktur dan Kereaktifan. Gorontalo: UNGPress.
- Housecroft C.E., and Sharpe A.G, 2012. Inorganic Chemistry, Pearson Education Limited, England
- Geoff Rayner-Canham, Descriptive Inorganic Chemistry, 2-nd ed., W.H. Freeman and Company, New York, 2000
- Miessler, D. L. and Tarr, D. A., 2004, Inorganic Chemistry, 3rd ed., Prentice Hall International, USA
- Atkins, P., Overton, T., Rourke, J., Shriver, D. F., Weller, M., and Amstrong, F., 2009, Shriver and Atkins’ Inorganic Chemistry, 5th ed., Oxford University
|
| Planned learning activities and teaching methods |
: |
Lecture and blended-learning consist of discussions, case studies |
| Language of instruction |
: |
Indonesia-English |
| Assessment methods and criteria |
: |
- Participation : 10%
- Task: 20%
- Midterm exam: 30%
- Final exam: 40%
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