Vibration Engineering

Course title

B0100400

Click to show questionnaire result at 2018

Course description

Vibration engineering covers vibration phenomena of mechanical systems (e.g. machines or structures) that are assumed to be a single-degree-of-freedom or two-degree-of-freedom system as an introduction against undergraduate students.

Purpose of class

To realize a dynamic design of mechanical systems with desired performance, students should learn to express and solve differential equations of motion of mechanical systems with a single-degree-of-freedom or two-degree-of-freedom.

Goals and objectives

To understand the derivation and solution of differential equations of motion
To understand the theory of free vibrations with or without damping
To understand the theory of forced vibrations with or without damping
To understand the analysis of mechanical systems with a two-degree-of-freedom

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction Free vibrations without damping	To investigate vibration engineering To read vibration free vibrations without damping	190minutes
2.	Derivation of the differential equations of motion	To read derivation of the differential equations of motion	190minutes
3.	Free vibrations with viscous damping	To read free vibrations with viscous damping	190minutes
4.	Measurement of damping (logarithmic decrement)	To read measurement of damping (logarithmic decrement)	190minutes
5.	Free vibrations with coulomb damping	To read free vibrations with coulomb damping	190minutes
6.	Forced vibrations without damping	To read forced vibrations without damping	190minutes
7.	Forced vibrations with viscous damping	To read forced vibrations with viscous damping	190minutes
8.	Response to arbitrary excitation (the convolution integral)	To read response to arbitrary excitation (the convolution integral)	190minutes
9.	Special lecture	Special instructions will be provided at the class	190minutes
10.	The differential equations of motion of two-degree-of-freedom systems	To read the differential equations of motion of two-degree-of-freedom systems	190minutes
11.	Free and forced vibrations of two-degree-of-freedom systems without damping	To read free and forced vibrations of two-degree-of-freedom systems without damping	190minutes
12.	The undamped dynamic vibration absorber	To read the undamped dynamic vibration absorber	190minutes
13.	Exercise	Students should review the contents of this class	190minutes
14.	Examination	Students should review the contents of this class	190minutes
Total.	-	-	2660minutes

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

	Homework and quiz	Final examination	Total.
1.	5%	20%	25%
2.	5%	20%	25%
3.	5%	20%	25%
4.	5%	20%	25%
Total.	20%	80%	-

Evaluation method and criteria

The grading for this class was broken down as follows:
Homework and quiz (20%)
Final examination (80%)

Textbooks and reference materials

Yuichi Sato, Understanding vibration phenomena, ISBN978-4-274-20483-8
(J.P. Den Hartog, Mechanical vibrations, ISBN0-486-64785-4)

Prerequisites

Engineering mechanics (dynamics) should be reviewed in advance.

Office hours and How to contact professors for questions

Friday lunch break

Relation to the environment

Non-environment-related course

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates a basic problem-solving skills

Active-learning course

More than one class is interactive

Course by professor with work experience

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

Last modified : Mon Apr 15 04:01:39 JST 2019