Electromagnetism 1

Course Information

College	Anan College	Year	2024
Course Title	Electromagnetism 1
Course Code	1312B01	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	School Credit: 2
Department	Course of Electrical Engineering	Student Grade	2nd
Term	Year-round	Classes per Week	前期:2 後期:2
Textbook and/or Teaching Materials	Electric magnetism (Morikita Publishing) / Exercises Electric magnetism (Morikita Publishing)
Instructor	Komatsu Minoru

Course Objectives

1. To be able to explain electric charge and Coulomb's law, and to be able to calculate the force acting on a point charge, etc.
2. To be able to explain electric field, electric potential, line of electric force, and electric flux, and to be able to make calculations using them.
3. To be able to explain Gauss's law and use it to calculate electric fields.
4. To be able to explain the properties of conductors and calculate the charge density and electric field on the surface of conductors.
5. To be able to explain capacitance, connection, energy and force of a capacitor, and to be able to make calculations using them.

Rubric

	Ideal Level	Standard Level	Approximate minimum level of attainment (acceptable)
Achievement 1	The student should be able to explain all of the laws of electric charge and Coulomb's law, and be able to calculate all of the forces, etc., acting on a point charge.	Students will be able to explain electric charge and Coulomb's law, and perform basic calculations such as the force acting on a point charge.	The student can only partially explain the charge and Coulomb's law, and can only partially calculate the forces, etc., acting on a point charge.
Achievement 2	The student is able to explain all electric fields, potentials, lines of electric force, and electric fluxes, and is able to perform all calculations using them.	Students will be able to describe electric fields, potentials, lines of electric force, and electric fluxes and perform basic calculations using them.	The student can only partially explain electric fields, potentials, lines of electric force, and electric fluxes, and can only partially perform calculations using them.
Achievement 3	The student is able to explain all of Gauss' laws and use them in all electric field calculations, etc.	Students will be able to explain Gauss's law and use it to calculate basic electric fields, etc.	The student can only partially explain Gauss's law and can only partially use it to calculate electric fields, etc.
Achievement 4	The student will be able to explain all the properties of conductors and calculate the charge density and electric field on the surface of a conductor.	Students will be able to describe the properties of conductors and perform basic calculations such as charge density and electric field on conductor surfaces.	The student can explain only part of the properties of a conductor and can only partially calculate the charge density and electric field on the surface of a conductor.
Achievement 5	Students will be able to explain capacitance, connection, energy and force, and perform calculations using all of these.	Students will be able to describe capacitance, connection, energy and force and perform basic calculations using these.	The student can only partially explain capacitance, connection, energy and force, and can only partially perform calculations using these.

Assigned Department Objectives

学習・教育到達度目標 B-3 See

学習・教育到達度目標 D-1 See

Teaching Method

Outline:

Electromagnetism is one of the most important disciplines that brought about the current technological society, and is the most important basic subject for electrical students, along with electric circuit theory. The goal of this course is to master the theory of electro-magnetic phenomena and to develop the basic skills necessary to take electrical and electronic engineering courses.

Style:

Many practice problems will be included to understand the concepts one by one.
62 hours of class time.

Notice:

There are many subjects related to electricity and magnetism in the electrical field. This lecture is the first subject to start the course, so please make sure to review and prepare well for the lecture.

Characteristics of Class / Division in Learning

Active Learning	Aided by ICT	Applicable to Remote Class	Instructor Professionally Experienced

Course Plan

			Theme	Goals
1st Semester
	1st Quarter
		1st	charge	Explain electric charge and Coulomb's law.
		2nd	charge	Can calculate the force acting on a point charge, etc.
		3rd	charge	Can calculate the force acting on a point charge, etc.
		4th	Electrostatic field in vacuum	Explain electric fields, potentials, lines of electric force, and electric fluxes.
		5th	Electrostatic field in vacuum	Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
		6th	Electrostatic field in vacuum	Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
		7th	Electrostatic field in vacuum	Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
		8th	midterm examination
	2nd Quarter
		9th	Electrostatic field in vacuum	Explain equipotential surfaces and Gauss's law.
		10th	Electrostatic field in vacuum	Explain equipotential surfaces and Gauss's law.
		11th	Electrostatic field in vacuum	Can calculate electric fields using Gauss's law.
		12th	Electrostatic field in vacuum	Can calculate electric fields using Gauss's law.
		13th	Electrostatic field in vacuum	Can calculate electric fields using Gauss's law.
		14th	Electrostatic field in vacuum	Can explain and calculate the charge distribution and electric field of a charged conductor.
		15th	Electrostatic field in vacuum	Can explain and calculate the charge distribution and electric field of a charged conductor.
		16th	Return of final examinations at the end of the first semester
2nd Semester
	3rd Quarter
		1st	Conductor systems and capacitance	Be able to explain the properties of conductors and calculate the charge density and electric field on the surface of a conductor.
		2nd	Conductor systems and capacitance	Be able to explain the properties of conductors and calculate the charge density and electric field on the surface of a conductor.
		3rd	Conductor systems and capacitance	Can explain capacitance and calculate capacitance of capacitors.
		4th	Conductor systems and capacitance	Can explain capacitance and calculate capacitance of capacitors.
		5th	Conductor systems and capacitance	Can explain capacitance and calculate capacitance of capacitors.
		6th	Conductor systems and capacitance	Can explain capacitance and calculate capacitance of capacitors.
		7th	Conductor systems and capacitance	Can explain capacitance and calculate capacitance of capacitors.
		8th	midterm examination
	4th Quarter
		9th	Conductor systems and capacitance	Explain electrostatic energy.
		10th	Conductor systems and capacitance	Explain electrostatic energy.
		11th	Conductor systems and capacitance	Explain electrostatic energy.
		12th	Conductor systems and capacitance	Explain electrostatic energy.
		13th	Conductor systems and capacitance	Explain the forces acting on charged conductors.
		14th	Conductor systems and capacitance	Explain the forces acting on charged conductors.
		15th	Conductor systems and capacitance	Explain the forces acting on charged conductors.
		16th	Return of final examinations at the end of the first semester

Evaluation Method and Weight (%)

	Examination	short test	Portfolio	Presentation and Attitude	Other	Total
Subtotal	70	10	10	0	10	100
Basic Proficiency	15	0	0	0	0	15
Specialized Proficiency	50	5	10	0	5	70
Cross Area Proficiency	5	5	0	0	5	15