Industrial Mechanics･Dynamics

Course title

Y0211230

Course description

In manufacturing, we have to take responsibility for our production. Therefore, in order to achieve unbreakable and "safe and secure" manufacturing, it is necessary to grasp and understand quantitatively the forces and moments acting on objects. In this course, we aim to learn about dynamics, specifically, dynamics of quality points, dynamics of quality point systems, and motion and dynamics of rigid bodies. In particular, students will learn about momentum and force products, work, conservation laws, and the treatment of parallel and rotational motions. Students will also learn about vibrations in one degree of freedom.
Please note that this lecture is in an on-demand style.

Purpose of class

The objective of this class is to acquire the concept of rigid body dynamics. The specific objectives are as follows
1. To be able to formulate equations of motion of rigid bodies, solve them, and understand their meaning.
2. To be able to calculate the dynamic quantities of translational and rotational motions, and to be able to explain these motions.
3. To be able to model vibration and explain its motion.

Goals and objectives

Understand the relationship between forces. (Can calculate the decomposition and synthesis of forces and moments in terms of vectors.)
Understand the motion of rigid bodies (translational and rotational motion) and quantitatively evaluate their motion.
Understand the motion of vibration and explain the meaning of natural frequencies.
To be able to quantitatively evaluate the motion of objects.

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

	Report	Mid-term examinations	Final examinations	Total.
1.	6%	10%	10%	26%
2.	6%	20%	20%	46%
3.	4%	0%	10%	14%
4.	4%	10%	0%	14%
5.	0%		0%	0%
Total.	20%	40%	40%	-

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Dynamics of quality points Induction and solution of equations of motion of quality points	教科書5章5.1節を復習	190minutes
2.	Mechanics of solids Momentum and force product	Review of textbook chapter 5, section 5.2	190minutes
3.	Mechanics of solids Angular momentum and moments of force Work and energy	Review of textbook chapter 5, sections 5.3 to 5.4	190minutes
4.	Mechanics of solids Induction of the equations of motion using the principle of least work	Review of textbook chapter 5, section 5.6	190minutes
5.	Dynamics of point systems Modelling of dynamical systems Atwood's apparatus	Review of textbook chapter 6, sections 6.1 to 6.2	190minutes
6.	Dynamics of point systems Conservation of momentum in systems of quality points	Review of textbook chapter 6, section 6.3	190minutes
7.	Mid-term examination and commentary Measurement of academic achievement in the content of the first through sixth lessons. Explanation of the questions.	Preparation for and revision of mid-term examinations	190minutes
8.	Dynamics of a system of solid points Law of conservation of motion of center of gravity Law of conservation of angular momentum	Review of textbook chapter 6, sections 6.4-6.5	190minutes
9.	Dynamics of point systems Energy of quality point systems Collisions Motion of trolleys and rockets	Review of textbook chapter 6, sections 6.6 to 6.8	190minutes
10.	Motion and dynamics of rigid bodies Equations of motion of rigid bodies Plane motion of rigid bodies	Review of textbook chapter 7, sections 7.1 to 7.2	190minutes
11.	Motion and dynamics of rigid bodies Motion in space around a fixed point Motion of a frame and a boomerang	Review of textbook chapter 7, sections 7.3 to 7.4	190minutes
12.	Vibration Vibration and modelling Free vibration of 1-DOF systems	Review of textbook chapter 8, sections 8.1 to 8.2	190minutes
13.	Vibration Forced vibration	Review of textbook chapter 8, section 8.3	190minutes
14.	Final examination and commentary Measurement of achievement in the content of the 8th to 13th lectures. Explanation of the questions.	Preparation for and revision of final examinations	190minutes
Total.	-	-	2660minutes

Evaluation method and criteria

There will be two reports (worth 20 points), a mid-term examination (worth 40 points) and a final examination (worth 40 points), for a total of 100 points. The report will be divided into two parts.
Reports will be submitted on SCOMBZ, and mid-term and final exams will be administered.
Out of a maximum of 100 points, 60 points will be considered a pass. The criteria for the level of passing is the ability to calculate the basic quantities of force and moment and to understand their meaning. Students should be able to calculate quantities of motion of a quality point, formulate equations of motion of a quality point, evaluate translational motion, rotational motion, energy, conservation laws, and calculate quantities.

Feedback on exams, assignments, etc.

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

Textbooks and reference materials

Textbook: Suzuki and Manabe (eds.), Industrial Mechanics for Learning Points (Maruzen) in Japanese
Reference books: Any book on industrial mechanics is acceptable.

Prerequisites

It is better to take a course in industrial mechanics and statics.

Office hours and How to contact professors for questions

Available on Thursdays from 12:30 to 13:00

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge
Course that cultivates a basic problem-solving skills

Active-learning course

Most classes are interactive

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
12.RESPONSIBLE CONSUMPTION & PRODUCTION

Last modified : Tue Sep 17 18:15:33 JST 2024