Applied Physics I

Course Information

College	Akashi College	Year	2021
Course Title	Applied Physics I
Course Code	0013	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	School Credit: 1
Department	Electrical and Computer Engineering Electrical Engineering Course	Student Grade	4th
Term	First Semester	Classes per Week	2
Textbook and/or Teaching Materials
Instructor	OGASAWARA Hiromichi

Course Objectives

(1) Understand the description of motion of an object and the fundamental laws of mechanics.
(2) Understand the basics of how to handle point masses in general based on the fundamental laws of mechanics.
(3) Understand the basics of how to handle rigid body based on the fundamental laws of mechanics.

Rubric

	Ideal Level	Standard Level	Unacceptable Level
Achievement 1	Can explain the description of the motion of an object and the fundamental laws of mechanics correctly, and apply them to specific questions accurately.	Can explain the description of the motion of an object and the fundamental laws of mechanics, and apply them to specific questions.	Cannot explain the description of the motion of an object and the fundamental laws of mechanics, or apply them to specific questions.
Achievement 2	Can explain the basics of how to handle point masses based on the fundamental laws of mechanics correctly, and apply them to specific questions accurately.	Can explain the basics of how to handle point masses based on the fundamental laws of mechanics, and apply them to specific questions.	Cannot explain the basics of how to handle point masses based on the fundamental laws of mechanics, or apply them to specific questions.
Achievement 3	Can explain the basics of how to handle rigid body based on the fundamental laws of mechanics correctly, and apply them to specific questions accurately.	Can explain the basics of how to handle rigid body based on the fundamental laws of mechanics, and apply them to specific questions.	Cannot explain the basics of how to handle rigid body based on the fundamental laws of mechanics correctly, or apply them to specific questions accurately.

Assigned Department Objectives

学習・教育到達度目標 (D) See

学習・教育到達度目標 (G) See

Teaching Method

Outline:

　Following Science IIIA (second semester), this course will lecture on mechanics.

Style:

　Classes will be taught in a lecture style, and there will also be exercises and quizzes.

Notice:

　Instead of learning each knowledge (e.g., question) by memorizing it individually, students should understand the laws that govern them (including being able to apply them to specific situations). Also, students should be aware of the relationships between the various laws, and try to understand concepts in physics systematically.
　Students can earn extra points by submitting voluntary assignments, and lose their points depending on their attitude, etc. in the class.
Students who miss 1/3 or more of classes will not be eligible for a passing grade.

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	Motion and force, and mechanical energy	Learn how to handle motion and force in planes and spaces based on the laws of motion. It is including topics about mechanical energy.
		2nd	Motion and force, and mechanical energy	Learn how to handle motion and force in planes and spaces based on the laws of motion. It is including topics about mechanical energy.
		3rd	Motion and force, and mechanical energy	Learn how to handle motion and force in planes and spaces based on the laws of motion. It is including topics about mechanical energy.
		4th	Motion and force, and mechanical energy	Learn how to handle motion and force in planes and spaces based on the laws of motion. It is including topics about mechanical energy.
		5th	Motion and force, and mechanical energy	Learn how to handle motion and force in planes and spaces based on the laws of motion. It is including topics about mechanical energy.
		6th	Law on momentum and angular momentum	Learn how to handle motion of center-of-mass and rotational motion, especially the laws of momentum and angular momentum.
		7th	Law on momentum and angular momentum	Learn how to handle motion of center-of-mass and rotational motion, especially the laws of momentum and angular momentum.
		8th	Midterm exam
	2nd Quarter
		9th	Law on momentum and angular momentum	Learn how to handle motion of center-of-mass and rotational motion, especially the laws of momentum and angular momentum.
		10th	Law on momentum and angular momentum	Learn how to handle motion of center-of-mass and rotational motion, especially the laws of momentum and angular momentum.
		11th	Rigid body dynamics	Learn how to handle rigid bodies based on fundamental of mechanics.
		12th	Rigid body dynamics	Learn how to handle rigid bodies based on fundamental of mechanics.
		13th	Rigid body dynamics	Learn how to handle rigid bodies based on fundamental of mechanics.
		14th	Rigid body dynamics	Learn how to handle rigid bodies based on fundamental of mechanics.
		15th	Rigid body dynamics	Learn how to handle rigid bodies based on fundamental of mechanics.
		16th	Final exam

Evaluation Method and Weight (%)

	Examination	Exercise / Short test	Total
Subtotal	60	40	100
Basic Proficiency	0	0	0
Specialized Proficiency	60	40	100
Cross Area Proficiency	0	0	0