課程概述與目標:以靜電、靜磁學為基礎,介紹Maxwell’s方程式,由Maxwell’s方程式了解電磁波之物理現象,並知道其理論推導。接著介紹傳遞電磁波之元件傳輸線、波導及共振腔,最後介紹天線。上課過程中讓學生知道電磁波目前在電機與通訊上之應用與發展。Course overview and objectives: Based on static electricity and static magnetism, we introduce the Maxwell’s equation, and we understand the physical phenomena of electromagnetic waves and understand the theoretical guidance. Next, we introduce the component transmission line, waveguide and resonance cavity that transmit electromagnetic waves, and finally the antenna. During the course, students were informed that the current application and development of electromagnetic waves in motors and communications.
課程概述與目標:以靜電、靜磁學為基礎,介紹Maxwell’s方程式,由Maxwell’s方程式了解電磁波之物理現象,並知道其理論推導。接著介紹傳遞電磁波之元件傳輸線、波導及共振腔,最後介紹天線。上課過程中讓學生知道電磁波目前在電機與通訊上之應用與發展。
Course overview and objectives: Based on static electricity and static magnetism, we introduce the Maxwell’s equation, and we understand the physical phenomena of electromagnetic waves and understand the theoretical guidance. Next, we introduce the component transmission line, waveguide and resonance cavity that transmit electromagnetic waves, and finally the antenna. During the course, students were informed that the current application and development of electromagnetic waves in motors and communications.
“Field and Wave Electromagnetics”, David K. Cheng, Addison-Wesley; 2nd edition (January 11, 1989)
“field and wave electronmagnetics”, David K. Cheng, Addison-Wesley; 2ND edition (January 11, 1989)
| 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 | |
| 小考小考 Small exam |
40 |
