Course syllabus
010153103-63 ทฤษฎีแม่เหล็กไฟฟ้า (Electromagnetic Theory)
Course Syllabus
Data entry : Asst.Prof. Dr.Wanwisa Thaiwirot
1. Course number and name
010153103-63 ทฤษฎีแม่เหล็กไฟฟ้า (Electromagnetic Theory)
2. Credits and contact hours
3(3-0-6)
3. Instructor’s or course coordinator’s name
Asst.Prof. Dr.Wanwisa Thaiwirot
4. Text book, title, author, and year
- Engineering Electromagnetics, 8th Edition, William H. Hayt and John A. Buck, McGraw-Hill, 2012
5. Specific course information
- brief description of the content of the course (catalog description)
This course requires students to understand electrostatic fields, conductors and dielectrics, capacitance, convection and conduction currents, resistance, magnetostatic fields, magnetic material, inductance, time-varying electromagnetic fields, Maxwell’s equations, introduction to plane wave. - prerequisites or co-requisites
040283211-63 Engineering Mathematics III - indicate whether a required, elective, or selected elective (as per Table 5-1) course in the program
Required :
6. Specific goals for the course
- specific outcomes of instruction (e.g. The student will be able to explain the significance of current research about a particular topic.)
- CLO1 The student will be able to use vector, calculus, and mathematics to describe electromagnetic phenomena.
- CLO2 The student will be able to identify, formulate, and solve problems in electrostatic, magnetostatic, and electromagnetic fields.
- CLO3 The student will be able to state several laws and theories of electric, magnetic, and electromagnetic fields.
- CLO4 The student will be able to understand the characteristics of materials and their interactions with electric and magnetic fields.
- CLO5 The student will be able to apply Maxwell' s equations to solve problems in time-varying electromagnetic fields.
- explicitly indicate which of the student outcomes listed in Criterion 3 or any other outcomes are addressed by the course.
ABET Student Outcome (SO) Listed in Criterion 3 Course learning outcome (CLO) SO1 an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics. - CLO1 The student will be able to use vector, calculus, and mathematics to describe electromagnetic phenomena.
- CLO2 The student will be able to identify, formulate, and solve problems in electrostatic, magnetostatic, and electromagnetic fields.
- CLO3 The student will be able to state several laws and theories of electric, magnetic, and electromagnetic fields.
- CLO4 The student will be able to understand the characteristics of materials and their interactions with electric and magnetic fields.
- CLO5 The student will be able to apply Maxwell' s equations to solve problems in time-varying electromagnetic fields.
7. Brief list of topics to be covered
| Week | Topic | Details | Activities |
|---|---|---|---|
| 1-2 | Vector Analysis | ||
| 3 | Coulomb’s Law and Electric Field Intensity | ||
| 4 | Electric Flux Density, Gauss’s Law, and Divergence | ||
| 5-6 | Energy and Potential | ||
| 7-8 | Current and Dielectric | ||
| 9 | Midterm | ||
| 10-11 | Capacitance | ||
| 12-13 | The Steady Magnetic Field | ||
| 14-15 | Magnetic Force, Materials, and Inductance | ||
| 16 | Time-Varying Fields and Maxwell’s Equations |
8. Course Assessment
| Course assessment | Weight score (%) | Assessment tools | Date |
|---|---|---|---|
| Formative 1 | 15 | midterm examination | 10 Jan 2026 |
| Formative 2 | 35 | midterm examination | 07 Feb 2026 - 07 Mar 2026 |
| Summative | 50 | final examination | 20 Mar 2026 |
The grading table
| Grading | Rank |
|---|---|
| >= 81% | A |
| 76% - 80% | B+ |
| 71% - 75% | B |
| 61% - 70% | C+ |
| 51% - 60% | C |
| 46% - 50% | D+ |
| 41% - 45% | D |
| 0% - 40% | F |
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