help students to understand the fundamental ideas and the mathematical language underlying quantum mechanics.
learn how to apply the the theoretical tools to explain observable phenomena.help students to understand the fundamental ideas and the mathematical language underlying quantum mechanics.
learn how to apply the theoretical tools to explain observable phenomenon.
※使學生熟悉基本的量子力學概念與數學方法,奠定學生瞭解近代物理,例如:固態物理、粒子物理、場論、原分子物理等之基礎。
※培養學生核心能力:
1.理解與運用物理、數學知識
2.數值計算與數據分析
3.陳述、分析與解決問題
5.產業相關知識與技能
※內容主題為:
1.Review of classical mechanics
2.Fundamental concepts
3.Quantum dynamics
※Let students be familiar with basic quantum mechanics concepts and mathematical methods, and lay the foundation for students to understand modern physics, such as solid physics, particle physics, theory, protomolecular physics, etc.
※Cultivate students' core abilities:
1. Understand and apply physics and mathematical knowledge
2. Numerical calculation and data analysis
3. Describe, analyze and solve problems
5. Industry-related knowledge and skills
※The content theme is:
1.Review of classical mechanics
2. Fundamental concepts
3. Quantum dynamics
yet to be decided, maybe Quantum Physics by Stephen Gasiorowicz, with supplementary material from Sakuri's book
yet to be decided, maybe Quantum Physics by Stephen Gasiorowicz, with supplementary material from Sakuri's book
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| general performancegeneral performance general performance |
30 | |
| midterm examinationmidterm examination midterm examination |
30 | |
| final examinationfinal examination Final examination |
40 |
