課程的安排上順序是:
1. 原子結構:以便於了解各種原子之相似性以及差異性。
2. 原子鍵結:以便於了解材料性質之相似性以及差異性。
3. 晶體結構與非晶質構造:以便於了解材料性質之相似性與差異性原自於原子排列的不 同。
4. 材料的物性: 材料對於環境的響應,例如:力學、電性與磁性分別對於機械、電力與磁力的響應。其他重要的特性,如熱(熱傳導與熱容量)、光學(吸收、傳輸與散射的光)以及接觸的環境(如耐腐蝕性)的化學穩定性。
5. 半導體材料:
6. 半導體元件
7. 材料之選擇
■ 課程內涵 (Course Contents)
所以本課程對學員的引導方式是:
1. 原子和固體首先在1930年代被解釋,在物理和化學觀念的結合下,材料特性與微觀結構之間的被關聯了,且開啟了材料科學的應用領域。且這門科學的發展也為材料設計工程提供了知識基礎。
2. 教學目的在使學員了解材料的行為特性是如何?!並藉由量子力學解釋為什麼他們有不同的特性。
3. 尤其加重半導體材料部份的知識與原理份量。因為在電機系中了解半導體材料的來源、特性及應用是重要的。
4. 半導體元件特性(與電子學連接)The sequence of courses is:
1. Atomic structure: To understand the similarities and differences of various atoms.
2. Atomic bonding: To understand the similarities and differences in material properties.
3. Crystal structure and amorphous structure: In order to understand that the similarities and differences in material properties originate from the differences in atomic arrangement.
4. Physical properties of materials: The response of materials to the environment, such as the mechanical, electrical and magnetic responses to mechanical, electrical and magnetic forces respectively. Other important properties are thermal (heat conduction and heat capacity), optical (absorption, transmission and scattered light) and chemical stability to the environment in which it is exposed (e.g. corrosion resistance).
5. Semiconductor materials:
6. Semiconductor components
7. Material selection
■ Course Contents
Therefore, the guidance method for students in this course is:
1. Atoms and solids were first explained in the 1930s. The combination of physical and chemical concepts related the properties of materials to their microstructure and opened up the application field of materials science. The development of this science also provides a knowledge base for materials design engineering.
2. The purpose of teaching is to enable students to understand the behavioral characteristics of materials?! And explain why they have different characteristics through quantum mechanics.
3. Particular emphasis is placed on the knowledge and principles of semiconductor materials. Because it is important to understand the sources, characteristics and applications of semiconductor materials in the electrical system.
4. Semiconductor component characteristics (connected to electronics)
“Foundations of Materials Science and Engineering”, 4rd edition, William F. Smith
“Foundation is of materials science and engineering”, 4RD edition, William F. Smith
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 期中考期中考 midterm exam |
30 | |
| 期末考期末考 final exam |
30 | |
| 出席率出席率 Attendance |
5 | |
| 小考及作業小考及作業 Quiz and homework |
35 |
