Electrical/Electronics Engineering A

Course Information

College	Toyama College	Year	2023
Course Title	Electrical/Electronics Engineering A
Course Code	0029	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	School Credit: 1
Department	Department of Maritime Technology	Student Grade	2nd
Term	First Semester	Classes per Week	2
Textbook and/or Teaching Materials
Instructor	Seino Yoshiaki

Course Objectives

1. Can explain fundamental words related to electrical and electronics engineering.
2. Can calculate parameters using Ohm's law.
3. Can calculate combined resistance of series connection and parallel connection.
4. Can explain a bridge circuit.
5. Can calculate parameters using Kirchhoff’s law.
6. Can explain electric power and electric energy.
7. Can explain Coulomb's law and magnetic permeability. Can calculate a force acting on magnetic poles.
8. Can determine strength and direction a magnetic field caused by electric current.
9. Can determine strength and direction of an electromagnetic force.
10. Can explain the operation principal of a direct current motor.
11. Can translate important technical terms in this area to English.

Rubric

	Ideal Level of Achievement (Very Good)	Standard Level of Achievement (Good)	Unacceptable Level of Achievement (Fail)
Evaluation 1	Can explain fundamental words related to electrical and electronics engineering perfectly.	Can explain fundamental words related to electrical and electronics engineering.	Cannot explain fundamental words related to electrical and electronics engineering.
Evaluation 2	Can calculate parameters using Ohm's law quickly and accurately.	Can calculate parameters using Ohm's law.	Cannot calculate parameters using Ohm's law.
Evaluation 3	Can calculate combined resistance of series connection and parallel connection quickly and accurately.	Can calculate combined resistance of series connection and parallel connection.	Cannot calculate combined resistance of series connection and parallel connection.
Evaluation 4	Can explain a bridge circuit perfectly.	Can explain a bridge circuit.	Cannot explain a bridge circuit.
Evaluation 5	Can calculate parameters using Kirchhoff’s law quickly and accurately.	Can calculate parameters using Kirchhoff’s law.	Cannot calculate parameters using Kirchhoff’s law.
Evaluation 6	Can explain electric power and electric energy perfectly.	Can explain electric power and electric energy.	Cannot explain electric power and electric energy.
Evaluation 7	Can explain Coulomb's law and magnetic permeability perfectly. Can calculate a force acting on magnetic poles quickly and accurately.	Can explain Coulomb's law and magnetic permeability. Can calculate a force acting on magnetic poles.	Cannot explain Coulomb's law and magnetic permeability. Cannot calculate a force acting on magnetic poles.
Evaluation 8	Can determine strength and direction of a magnetic field caused by electric current quickly and accurately.	Can determine strength and direction of a magnetic field caused by electric current.	Cannot determine strength and direction of a magnetic field caused by electric current.
Evaluation 9	Can determine strength and direction of an electromagnetic force quickly and accurately.	Can determine strength and direction of an electromagnetic force.	Cannot determine strength and direction of an electromagnetic force.
Evaluation 10	Can explain the operation principal of a direct current motor perfectly.	Can explain the operation principal of a direct current motor.	Cannot explain the operation principal of a direct current motor.
Evaluation 11	Can translate important technical terms to English and utilize it.	Can translate important technical terms to English.	Cannot translate important technical terms to English.

Assigned Department Objectives

MCCコア科目 See

Teaching Method

Outline:

Lectures by the instructor.

Style:

Students are required to take notes of the contents on the white board in the class.
A sheet of printed learning materials is distributed in every class. The object is clearly shown on the material. Some exercises, related to the lecture, will also be printed. Students are required to submit the answer before the deadline as homework.
The answer is evaluated and discussed in the beginning of the following class for review.

Notice:

Required subject (training institution of ship officer) for licensed mariner of 3rd grade (both navigation and engine)

The recognition of credit requires 50 points or more rating.
If obtained evaluation points are less than 50, the student can take an additional exam upon request. The final point is 50, if the student is permitted to acquire the credit by the result of the additional exam.

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	Orientation. Free electron, electric current, electric circuit, direct current, and alternating current.	Understanding of the evaluation. Can explain these words.
		2nd	Potential difference, voltage, electromotive force. Ohm's law.	Can explain these words. Can calculate parameters using Ohm's law.
		3rd	Combined resistance of series connection.	Can calculate combined resistance of series connection.
		4th	Combined resistance of parallel connection. Combined resistance of series-parallel connection.	Can calculate combined resistance of parallel connection and series-parallel connection.
		5th	Bridge circuit.	Can explain a bridge circuit and a Wheatstone bridge.
		6th	Kirchhoff's law.	Can calculate parameters using Kirchhoff’s law.
		7th	Resistivity and conductivity. Electric power and electric energy.	Can explain resistivity and conductivity. Can explain electric power and electric energy.
		8th	Midterm exam	Examination of contents in 1st - 7th week.
	2nd Quarter
		9th	Return of marked exam papers and comments. Magnetism, magnetic pole, North, and South.	Receive the marked exam papers. Can solve unsolved problems. Can explain these words.
		10th	Force acting on magnetic poles. Strength of magnetic field.	Can calculate a force acting on magnetic poles using Coulomb's law. Can calculate strength of magnetic field caused by a magnetic pole.
		11th	Permeability and relative permeability.	Can explain permeability and relative permeability. Can calculate a force acting on magnetic poles using relative permeability.
		12th	Magnetic induction and magnetic shield. Line of magnetic force, magnetic flux, and magnetic flux density.	Can explain magnetic induction and magnetic shield. Can explain line of magnetic force, magnetic flux, and magnetic flux density.
		13th	Ampere's right handed screw rule. Strength of magnetic field caused by current flow in a straight wire or a circular coil.	Can explain Ampere's right handed screw rule. Can calculate strength of magnetic field caused by current flow in a straight wire or a circular coil.
		14th	Strength and direction of electromagnetic force. Operation principal of a direct current motor.	Can calculate and determine strength and direction of electromagnetic force. Can explain the operation principal of a direct current motor.
		15th	Final exam	Examination of contents in 9th - 14th week.
		16th	Return of marked exam papers and comments. Class evaluation questionnaire.	Receive the marked exam papers. Can solve unsolved problems. Answer the class evaluation questionnaire.

Evaluation Method and Weight (%)

	Examination	Homework	Total
Subtotal	70	30	100
Basic ability	0	0	0
Technical ability	70	30	100