Many familiar substances and materials are solids. In order to understand basic solid properties, it is necessary to know
that the structure, stability, and electronic characteristics of the material with individual atomic and moleculer arrangements.
In this class, we will focus on the understanding of molecular arrangements with symmetric operations in crystals, for engineers.
As a preliminary step in handling crystals and materials in specialized subjects, we will learn with the aim of learning the
basic structure of chemistry and the array structure and properties of solid materials in our surroundings from a chemical
point of view.
Understand how the constituent particles of solid such as atoms and molecules are arranged in the crystal based on the chemical
interactions. Basic information of crystal unit structures of solid and the corresponding microscopic viewpoint will be treated.
1. To be able to write the electronic arrangements of major elements and coordination structures of transition metals up to the third period.
2. To be able to understand and calculate the body-centered lattice, face-centered lattice, hexagonal closest packing, unit lattice, atomic radius, and filling factor.
3. To be able to explain the symmetry of simple molecules consisting of 3 to 7 atoms from symmetric operation.
4. To be able to distinguish and explain the representative metal crystals, ion crystals, molecular crystals, and covalent crystals.
5. To be able to explain polymorphic and pseudo-polymorphic crystals.
6. To be able to explain the structures and properties of major oxides with examples of industrial application.
1. To be able to write the electronic arrangements of major elements and coordination structures of transition metals up to the third period.
2. To be able to understand and calculate the body-centered lattice, face-centered lattice, hexagonal closest packing, unit lattice, atomic radius, and filling factor.
3. To be able to explain the symmetry of simple molecules consisting of 3 to 7 atoms from symmetric operation.
4. To be able to distinguish and explain the representative metal crystals, ion crystals, molecular crystals, and covalent crystals.
5. To be able to explain polymorphic and pseudo-polymorphic crystals.
6. To be able to explain the structures and properties of major oxides with examples of industrial application.
- To be able to write the electronic arrangements of major elements and coordination structures of transition metals up to the third period.
- To be able to understand and calculate the body-centered lattice, face-centered lattice, hexagonal closest packing, unit lattice, atomic radius, and filling factor.
- To be able to explain the symmetry of simple molecules consisting of 3 to 7 atoms from symmetric operation.
- To be able to distinguish and explain the representative metal crystals, ion crystals, molecular crystals, and covalent crystals.
- To be able to explain polymorphic and pseudo-polymorphic crystals.
- To be able to explain the structures and properties of major oxides with examples of industrial application.
| Quizzes | Group works | Intermediate examination | Term-end examination | Total. | |
|---|---|---|---|---|---|
| 1. | 5% | 5% | 3% | 13% | |
| 2. | 5% | 5% | 3% | 13% | |
| 3. | 5% | 10% | 5% | 5% | 25% |
| 4. | 5% | 7% | 12% | ||
| 5. | 5% | 10% | 7% | 22% | |
| 6. | 5% | 10% | 15% | ||
| Total. | 30% | 20% | 15% | 35% | - |
Your final grade will be calculated according to the following process: Quizzes (30%), Group works (20%), and Examinations
(50%). To pass, students must earn at least 60 points out of 100.
You will reach approximately 60% if you participate in group work and can solve the basic quizzes and the corresponding new examinations of the same level and will reach 80% or more to solve the related application examinations.
You will reach approximately 60% if you participate in group work and can solve the basic quizzes and the corresponding new examinations of the same level and will reach 80% or more to solve the related application examinations.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Interoduction. Achievement goal of class & introduction of solid chemistry. |
Survey and review of parts that can not be understood in class. | 90minutes |
| 2. | Electronic arrangements, coordination numbers, chemical bonds of basic materials. | Survey and review of parts that can not be understood in class. | 120minutes |
| 3. | Crystal structure of representative compounds. | Survey and review of parts that can not be understood in class. | 120minutes |
| 4. | Molecular symmetry-1: structures and symmetry operations. | Survey and review of parts that can not be understood in class. | 120minutes |
| 5. | Molecular symmetry-2: point groups. | Survey and review of parts that can not be understood in class. | 120minutes |
| 6. | Group work-1: preparation of molecular models with the point group. | Preparation of the group work. | 360minutes |
| 7. | Examination, group presentation, description. | Review of all contents and preparation of group work. | 400minutes |
| 8. | Classification of crystals-1. | Survey and review of parts that can not be understood in class. | 120minutes |
| 9. | Classification of crystals-2. | Survey and review of parts that can not be understood in class. | 120minutes |
| 10. | Group work-2: Preparation of ice models and determining unit cells | Preparation of group work. | 360minutes |
| 11. | Basics of mineralogy-1 | Survey and review of parts that can not be understood in class. | 120minutes |
| 12. | Basics of mineralogy-2 | Survey and review of parts that can not be understood in class. | 120minutes |
| 13. | Basic functions of solids | Survey and review of parts that can not be understood in class. | 120minutes |
| 14. | Term-end examination and commentary | Review of all contents. | 370minutes |
| Total. | - | - | 2660minutes |
| ways of feedback | specific contents about "Other" |
|---|---|
| 授業内と授業外でフィードバックを行います。 |
Distribute prints as necessary.
Reference book:
「固体化学の基礎」S. E. Dann著,田中勝久訳(チュートリアル化学シリーズ)、「結晶としての固体(バーンズ固体物理学)」寺内 暉,中村 輝太郎訳(東海大学出版会)
Reference book:
「固体化学の基礎」S. E. Dann著,田中勝久訳(チュートリアル化学シリーズ)、「結晶としての固体(バーンズ固体物理学)」寺内 暉,中村 輝太郎訳(東海大学出版会)
The students are recommended to complete 'Basic chemistry A', 'Basic chemistry B', or 'Basic chemistry C' prior tp this class.
- Please ask every time in your class if you have questions and problems. After the class, we will accept questions and consultation at Rm 3100-1 (Friday, 10AM~1PM).
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
- 12.RESPONSIBLE CONSUMPTION & PRODUCTION
Last modified : Wed Feb 26 18:11:31 JST 2025