Fundamental Mechanics

Course title

40121400

	TANABE Tadao
	ITO Hirotaka
	UTSUNOMIYA Takao

Course description

The class is designed to learn the concept of mechanics, which is the basis for design and manufacturing. The ability to understand the basic laws of nature discovered through various experiments and observations in physics is necessary not only for designing products but also for the process of making products into realistic shapes. In this class, based on Newton's laws of motion (classical mechanics), mechanics of a mass point (without considering its internal structure) is studied to learn the laws of motion and how to express motion. Taking simplified mechanical phenomena as examples, the goal is to derive the equations of motion from the laws of motion and to apply them.

Purpose of class

To learn the importance of understanding natural phenomena from their basic fundamentals.

Goals and objectives

Able to physically observe and think in a physical way.
To be able to describe things quantitatively.
Able to relate knowledge of mechanics systematically.

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	reports	midterm and final exams	Total.
1.	5%	25%	30%
2.	5%	25%	30%
3.	10%	30%	40%
Total.	20%	80%	-

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Concept of Motion and Mathematics (Position, Velocity, Acceleration)	To think about a movement of object can be described.	200minutes
2.	Motion in two or more dimensions (inner product, parabolic motion, circular motion)	To think about a movement of object can be predicted.	200minutes
3.	Forces and Laws of Motion (Forces and Motion)	To think about the forces that move a object and the energy that a object in motion have.	200minutes
4.	Forces and Laws of Motion (Newton's Laws)	To think about the principle of capturing object.	200minutes
5.	Application of Newton's laws ( Frictional force, Air resistance )	To think about how easy it is to move and how hard it is to move a thing.	200minutes
6.	Application of Newton's laws ( Centripetal force, Inertial force)	To think about the forces on a moving object.	200minutes
7.	Mid-term exam and its explanation	Preparation for mid-term test.	200minutes
8.	Work and energy (work and kinetic energy)	To think about the work that a moving object can do.	100minutes
8.	Work and energy (work and kinetic energy)	To think about the energy that a moving object has.	100minutes
9.	Work and energy (work ratio)	To think about the efficiency of moving a thing.	200minutes
10.	Force product and momentum (law of momentum conservation)	To think about the principle when things move.	200minutes
11.	Force product and momentum (elastic and inelastic impacts)	To think about the principle when objects crash.	200minutes
12.	Dynamics of circular motion and planetary motion (law of universal gravitation, circular motion of celestial bodies)	To think about the motion of objects in space.	200minutes
13.	Dynamics of circular motion and planetary motion (central force and angular momentum, polar coordinates)	To think about the motion of objects when they rotate in space.	200minutes
14.	Final exam and its description	Preparation for final test.	200minutes
Total.	-	-	2800minutes

Evaluation method and criteria

An interim report (20%) and a term-end examination or report (80%).
The evaluation is based on the achievement of Goals and objectives (1) 30%, (2) 30%, (3) 40%.
Students must earn at least 60 marks out of 100.
The level is understanding and quantitatively expressing the physics of movement.

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in the class

Textbooks and reference materials

ReferenceText book: K. Suehiro, J. Saito, H. Suzuki, A. Onodera, Buturigaku I, Maruzen Shuppan
ReferenceText book: T. Hyodo, Kangaeru rikigaku, Gakujutsu Tosho Shuppan
ReferenceText book: Y. Hara, Butsurigaku-kiso, Gakujutsu Tosho Shuppan
*Textbooks appropriate to the lesson plan will be specified in each class.

Prerequisites

It is advisable to study analysis and calculus.

Office hours and How to contact professors for questions

Within 30 minutes after the lecture

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Non-social and professional independence development course

Active-learning course

N/A

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

4.QUALITY EDUCATION
9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Tue Sep 17 18:23:05 JST 2024