Tampere university of technology - Course Catalog 2010-2011

Course Catalog 2010-2011 International
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Course Catalog 2010-2011

KSU-3016 Mechanical Vibrations, 6 cr

Person responsible

Lihong Yuan

Lessons

Study type P1 P2 P3 P4 Summer Implementations Lecture times and places

Lectures
Excercises

2 h/week
2 h/week
+2 h/week
+2 h/week

KSU-3016 2010-01 Monday 12 - 16, K1303

Requirements

Accepted calculation and laboratory exercises and subsequent written examination.
Completion parts must belong to the same implementation

Principles and baselines related to teaching and learning

Learning outcomes

Understanding dynamic behavior of mechanical systems and structures. Calculation methods for dynamic loads and vibration isolation and damping.Learning Mathcad through all exercises and project works.

Content

Content Core content Complementary knowledge Specialist knowledge

1. Basics of vibration mechanics. Equilibrium method and Lagrange's equations. Computing of natural frequencies and modes. Natural frequencies of rods and beams. Semidefinite systems. Mathcad.

2. Vibration systems with one and two degrees of freedom. Discrete vibration system with multi-degree-of- freedom. Time domain response. Frequency response function.

3. Vibration isolation and transmissibility. Design of absorber.

4. Nonlinear systems. Analytical solution.

5. Vibration of continuous systems.

Evaluation criteria for the course

Accepted calculation and laboratory exercises,project works and subsequent written examination.

Assessment scale:

Numerical evaluation scale (1-5) will be used on the course

Partial passing:

Completion parts must belong to the same implementation

Study material

Type Name Author ISBN URL Edition, availability, ... Examination material Language

Book Mechanical and structural vibrations Ginsberg, J.H. 0-471-12808-2 John Wiley, New York, 2001 English

Book Mechanical vibrations: Theory and applications Tse, F.S., Morse, I.E., Hinkle, R.T Allyn and Bacon Inc, Boston 1978. English

Prerequisite relations (Requires logging in to POP)

Correspondence of content

Course Corresponds course Description

KSU-3016 Mechanical Vibrations, 6 cr KSU-3010 Mechanical Vibrations, 6 cr

KSU-3016 Mechanical Vibrations, 6 cr MEC-3016 Mechanical Vibrations, 6 cr Vastaavuus 1 = 1

More precise information per implementation

Implementation Description Methods of instruction Implementation

KSU-3016 2010-01 To learn the fundamental knowledge about mechanical vibrations including dynamic behavior of mechanical systems and structures. To learn Calculation methods for dynamic loads and vibration isolation and damping. Learning Mathcad (for beginner)through exercises additionally.

Last modified 14.04.2011

Study type	P1	P2	P3	P4	Summer	Implementations	Lecture times and places
Lectures Excercises			2 h/week 2 h/week	+2 h/week +2 h/week		KSU-3016 2010-01	Monday 12 - 16, K1303

Content	Core content	Complementary knowledge	Specialist knowledge
1.	Basics of vibration mechanics. Equilibrium method and Lagrange's equations.	Computing of natural frequencies and modes. Natural frequencies of rods and beams. Semidefinite systems.	Mathcad.
2.	Vibration systems with one and two degrees of freedom. Discrete vibration system with multi-degree-of- freedom.	Time domain response. Frequency response function.
3.	Vibration isolation and transmissibility.	Design of absorber.
4.	Nonlinear systems.	Analytical solution.
5.	Vibration of continuous systems.

Type	Name	Author	ISBN	URL	Edition, availability, ...	Examination material	Language
Book	Mechanical and structural vibrations	Ginsberg, J.H.	0-471-12808-2		John Wiley, New York, 2001		English
Book	Mechanical vibrations: Theory and applications	Tse, F.S., Morse, I.E., Hinkle, R.T			Allyn and Bacon Inc, Boston 1978.		English

Course	Corresponds course	Description
KSU-3016 Mechanical Vibrations, 6 cr	KSU-3010 Mechanical Vibrations, 6 cr
KSU-3016 Mechanical Vibrations, 6 cr	MEC-3016 Mechanical Vibrations, 6 cr	Vastaavuus 1 = 1

Implementation	Description	Methods of instruction	Implementation
KSU-3016 2010-01	To learn the fundamental knowledge about mechanical vibrations including dynamic behavior of mechanical systems and structures. To learn Calculation methods for dynamic loads and vibration isolation and damping. Learning Mathcad (for beginner)through exercises additionally.

Course Catalog 2010-2011 International

Course Catalog 2010-2011