- Place
- Tue3-4(G512)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 93559
- Syllabus updated
- 2015/9/28
- Lecture notes updated
- 2015/10/24
- Access Index
-
- Semester
- Fall Semester
Outline of lecture
This subject provides the fundamental knowledge, which is required of all the students in the Department of Energy Sciences, of Electromagnetics, Circuit theory, Transport theory of momentum and heat, Thermodynamics, Statistical mechanics, Quantum mechanics, and Special theory of relativity.
Purpose of lecture
This subject provides the fundamental knowledge, which is required of all the students in the Department of Energy Sciences.
Plan of lecture
Prof. Hotta
1. Basic laws of electromagnetics 1 (Electrostatics)
2. Basic laws of electromagnetics 2 (Magnetostatics)
3. Basic theory of electrical circuit 1 (DC circuit)
4. Basic theory of electrical circuit 2 (AC circuit and elements)
Prof. Okamura
5. Basic laws of thermodynamics and fundamentals of heat engine
6. Fundamentals of statistical mechanics and Maxwell - Boltzmann distribution
7. Fundamentals of heat transport
8. Fundamentals of fluid flow
Prof. Akatsuka
9. Atomic physics based upon quantum mechanics - Schroedinger equation and wave mechanics
10. Comparison of wave mechanics and matrix mechanics 窶 treatment of harmonic oscillator
11. Principle of quantum mechanics 窶 tunneling effect and uncertainty principle
12. Angular momentum in quantum mechanics
Prof. Hasegawa
13. Principle of special theory of relativity 1 - Lorentz transformation
14. Principle of special theory of relativity 2 - Special relativistic dynamics
15. Principle of special theory of relativity 3 - Special relativistic electromagnetics
Textbook and reference
Non
Related and/or prerequisite courses
Non
Evaluation
By Exercise or Reports
