Course Objectives
1. Understand the characteristics of electromagnetic waves through general-purpose technologies and products in daily life.
2. Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
3. A basic analysis of electromagnetic wave radiation from an antenna can be performed.
Rubric
| Ideal
achievement level
| Standard achievement level | Minimum achievement level
(possible) |
Achievement 1 | Able to understand and explain the characteristics of electromagnetic waves through general purpose technologies and products in daily life. | Able to understand the
characteristics of
electromagnetic waves through
general-purpose
technologies and
products in daily life.
| Able to understand only a part of the
characteristics of
electromagnetic waves through general-purpose technologies and products in daily life.
|
Achievement 2 | Able to understand Maxwell's equations and analyze the propagation
characteristics of
various electromagnetic waves.
| Able to understand the basic Maxwell's equations and analyze the
propagation
characteristics of
electromagnetic
waves.
| Able to understand Maxwell's equations, and can analyze only a part of the propagation characteristics of
electromagnetic waves.
|
Achievement 3 | Able to perform various analyses on the
electromagnetic wave radiation from the antenna.
| Able to analyze electromagnetic wave radiation from a basic antenna. | Able to analyze only a part of the
electromagnetic wave radiation from the antenna.
|
Assigned Department Objectives
Teaching Method
Outline:
In this lecture, based on the Maxwell equation, you will learn the basics, including basic physical properties of electromagnetic waves, and understand the radio wave propagation in transmission lines and the radiation phenomenon from antennas. At the same time, you will also learn about high frequency application technology.
Style:
This lecture allows you to systematically understand electromagnetic waves. Make full use of the basic knowledge of electromagnetism and electric circuits that you have already acquired, and strive to acquire specialized knowledge about radio wave propagation. Acquire the ability to understand technological trends in high-frequency application fields where new products and new technologies are being developed one after another. Since this subject is a study unit, a report will be given as pre- and post-study.
[Class time 31 hours + self-study time 60 hours]
Notice:
This subject is a required subject to be certified as a second-class land special radio engineer's license.
Characteristics of Class / Division in Learning
Course Plan
|
|
|
Theme |
Goals |
2nd Semester |
3rd Quarter |
1st |
Overview of electromagnetic wave engineering
|
Understand the characteristics of electromagnetic waves through general purpose technologies and products in daily life.
|
2nd |
Overview of electromagnetic wave engineering
|
Understand the characteristics of electromagnetic waves through general purpose technologies and products in daily life.
|
3rd |
Basic physics of electromagnetic waves
|
Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
|
4th |
Basic physics of electromagnetic waves
|
Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
|
5th |
Mathematical expression of electromagnetic waves
|
Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
|
6th |
Mathematical expression of electromagnetic waves
|
Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
|
7th |
Mathematical expression of electromagnetic waves
|
Understand Maxwell's equations and analyze basic electromagnetic wave propagation characteristics.
|
8th |
Late midterm exam |
|
4th Quarter |
9th |
Electromagnetic wave propagation in a transmission line
|
Can analyze electromagnetic wave propagation on transmission lines.
|
10th |
Electromagnetic wave propagation in a transmission line
|
Can analyze electromagnetic wave propagation on transmission lines.
|
11th |
Radiation and reception of electromagnetic waves
|
A basic analysis of electromagnetic wave radiation from an antenna can be performed.
|
12th |
Radiation and reception of electromagnetic waves
|
A basic analysis of electromagnetic wave radiation from an antenna can be performed.
|
13th |
Waveform, frequency and noise measurements
|
Explain oscilloscopes and spectrum analyzers.
|
14th |
Waveform, frequency and noise measurements
|
Explain oscilloscopes and spectrum analyzers.
|
15th |
Waveform, frequency and noise measurements
|
Explain oscilloscopes and spectrum analyzers.
|
16th |
Late final exam |
|
Evaluation Method and Weight (%)
| Routine Exam | Little Test | Portfolio | Announcement / approach attitude | Others | | Total |
Subtotal | 80 | 0 | 20 | 0 | 0 | 0 | 100 |
Basic Proficiency | 20 | 0 | 5 | 0 | 0 | 0 | 25 |
Specialized Proficiency | 60 | 0 | 15 | 0 | 0 | 0 | 75 |
Cross Area Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |