Course title | |||||
無機化学 [Inorganic Chemistry] | |||||
Course category | Requirement | Credit | 2 | ||
Department | Year | 2~ | Semester | 3rd | |
Course type | 3rd | Course code | 01ch2003c | ||
Instructor(s) | |||||
赤井 伸行 [AKAI Nobuyuki] | |||||
Facility affiliation | Graduate School of Bio-Applications and Systems Engineering | Office | Email address |
Course description |
In order to understand material cycle and accumulation in environments such as NOx in atmosphere or metalic ions in soils, chemical knowledge about structure, state and reactivity of inorganic elements is required. Although inorganic compounds involve numeous chemical species and characters, they conform to systematic rules. The class lecture about structure, property and reactivity of inorganic elements, their ions and compounds. |
Expected Learning |
Learners will be able to estimate molecular structure of inorganic compounds by using chemical bond theory. Learners will systematically understand physico chemical propertyies of inorganic compounds including crystals, ions, metals and semiconductor. Corresponding criteria in the Diploma policy: See the curriculum maps. https://www.tuat.ac.jp/campuslife_career/campuslife/policy/ |
Course schedule |
Molecular structure, crystal and chemical bonds of inorganic molecules are focused on. 1)Introduction to Inorganic Chemistry 2)Atoms and Molecules, Basic Quantum Chamistry 3)Molecular Strucutre 1 : Wavefunction and Orbitals 4)Molecular Structure 2 : VSEPR theory 5)Molecular Structure 3 : Molecular orbital method 6)Molecular structure 4 : Salts and Ionic bond 7)Molecular structure 5 : Metal bond and Band theory 8)Molecular structure 6 : Molecular symmetry 9)Molecular structure 7 : Crystal structure 10)Reaction 1: Acids and Bases 1 11)Reaction 2: Acids and Bases 2 12)Reaction 3: Oxidation and Reduction 1 13)Reaction 4: Oxidation and Reduction 2 14)Reaction 5: Pourbaix diagram 15)Summary Examination |
Prerequisites |
Students need to preview and review for an amount of time as indicated in the student guidelines of TUAT, in addition to the attendance of lecture (30 hours). Related courses are TAT I chemisty, physical chmistry, and aqueous chemistry |
Required Text(s) and Materials |
not used. Handouts are prepared as appropriate. |
References |
Some publications will be introduced in a lecture. |
Assessment/Grading |
Examination(100%) |
Message from instructor(s) |
welcome any questions in a lecture. |
Course keywords |
ion, structure, chemical bond, chemical equilibrium (acid-base and redox) |
Office hours |
anytime |
Remarks 1 |
2017 S:15%、A:21%、B:36%、C:15%、D:13% 2018 S:13%、A:23%、B:29%、C:26%、D:10% 2019 S:11%、A:24%、B:27%、C:24%、D:13% 2020 S:17%、A:45%、B:21%、C:10%、D:7%(online) 2021 S:9%、A:20%、B:22%、C:33%、D:15% |
Remarks 2 |
Related URL |
Lecture Language |
Japanese |
Language Subject |
Last update |
1/28/2022 8:17:49 AM |