Syllabus for Special Topics in Introduction to Structural Dynamics
 

◇ Information of class

Curriculum NO.  ACE501
Course NO. 
00
Title  Introduction to Structural Dynamics (기본구조동역학)
Lecturer  Hakuen LEE
Credit  1.5-1.5

 
◇ Grading

수시과제

10 점

중간과제

40 점

기말과제

40 점

참여도

10 점

합계

100 점

평가점수
공개여부

비공개

◇ Academic Integrity

  Maintaining high level of academic integrity standard is very important. During the coursework, a particular attention should be given to plagiarism. Discussion between students about assignments and projects is encouraged. However, copying another student's work, or letting your own work be copied, is unacceptable. More detailed definition of plagiarism can be found at the Korea University Policy for Academic Conduct. Instances of plagiarism will be dealt with in accordance to the Korea University Policy for Academic Conduct. Such instances will be reported to the Head of School and a record will be kept of the case and penalty given, for future reference.

Updates in this semester

  In this semester, the entire course structure is completely reorganized to accommodate most up-to-date theories and research trends. and some experimental test will be conducted several times.

◇ Introduction of class

Fundamentals of free and forced vibration of one and multi degree of freedom structures are studied including damping in time and frequency methods of analysis

◇ Objective

Solid understing of fundamentals of structural dynamics


◇ Prerequisite Subjects

Mechanic of Materials, Advanced Engineering Mathmatics, Stuctural Analysis


◇ Class Materials

Lecture Note & Handout.

** Copyright of lecture notes **

Lecture notes are designed to help students study the given subject. 

It is not allowed to re-distribute parts of or the entire lecture notes to a third party without consent.

 
◇ References

Structural dynamics - Roy R. Craig. Jr. & Dynamics of structures - Anil K. Chopra,

 
◇ Assignments

Problems at each chapter.

 
◇ Weekly Plans

 

기간

 

회차

 

학습내용

 

교재

 

활동 및
설계내용

1

 

03.02 - 03.08

 

1

 

Introduction

 

 

 

 

2

 

03.09 - 03.15

 

1

 

Forced vibration of undamped MOF system

 

 

 

 

3

 

03.16 - 03.22

 

1

 

Approximate method for determining mode shape and frequencies in MOF system

 

 

 

 

4

 

03.23 - 03.29

 

1

 

Approximate method for determining mode shape and frequencies in MOF system

 

 

 

 

5

 

03.30 - 04.05

 

1

 

Dynamic response of damped MOF system

 

 

 

 

6

 

04.06 - 04.12

 

1

 

Dynamic response of frame system

 

 

 

 

7

 

04.13 - 04.19

 

1

 

Earthquake response of MOF system

 

 

 

 

8

 

04.20 - 04.26

 

1

 

Mid-term exam.

 

 

 

 

9

 

04.27 - 05.03

 

1

 

Earthquake response of MOF system

 

 

 

 

10

 

05.04 - 05.10

 

1

 

Earthquake response of 3D structure

 

 

 

 

11

 

05.11 - 05.17

 

1

 

Dynamic response of continuous system

 

 

 

 

12

 

05.18 - 05.24

 

1

 

Dynamic response of continuous system

 

 

 

 

13

 

05.25 - 05.31

 

1

 

Dynamic response of continuous system

 

 

 

 

14

 

06.01 - 06.07

 

1

 

Approximate method for estimation mode shape and frequencies in continuous system

 

 

 

 

15

 

06.08 - 06.14

 

1

 

Dynamic response of continuous system

 

 

 

 

16

 

06.15 - 06.21

 

1

 

Final exam.

 

 

 

 

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