PAÜ .:. Eğitim Öğretim Bilgi Sistemi

COURSE INFORMATION

Course Code	Course Title	L+P Hour	Semester	ECTS
INS 527	MECHANICAL VIBRATIONS	3 + 0	2nd Semester	7,5

COURSE DESCRIPTION

Course Level	Master's Degree
Course Type	Elective
Course Objective	Analyzing free and forced vibrations of rods
Course Content	Axial Vibrations of Rods; Torsional Vibrations (With concentrated mass); Free Vibrations of Beams (Euler beam, Timoshenko beam, Rotatory effect, Axial force effect, beams on elastic foundation, finite element method); Forced Vibration of Beams (Periodical forces, modes); Equations of Motions; Boundary Conditions. .
Prerequisites	No the prerequisite of lesson.
Corequisite	No the corequisite of lesson.
Mode of Delivery	Face to Face

COURSE LEARNING OUTCOMES

1	Gives information about dynamic analysis
2	Defines vibration problems of rods.

COURSE'S CONTRIBUTION TO PROGRAM

	PO 01	PO 02	PO 03	PO 04	PO 05	PO 06	PO 07	PO 08	PO 09	PO 10	PO 11
LO 001	5		2		4				4	4
LO 002	5		2		4			3	4	4
Sub Total	10		4		8			3	8	8
Contribution	5	0	2	0	4	0	0	2	4	4	0

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION

Activities	Quantity	Duration (Hour)	Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)	14	3	42
Hours for off-the-classroom study (Pre-study, practice)	14	3	42
Assignments	2	30	60
Mid-terms	1	25	25
Final examination	1	26	26
Total Work Load ECTS Credit of the Course			195 7,5

COURSE DETAILS

Select Year

	Course Term	No	Instructors
Details	2012-2013 Spring	1	OKTAY DEMİRDAĞ
Details	2009-2010 Fall	1	OKTAY DEMİRDAĞ

Course Details

Course Code	Course Title	L+P Hour	Course Code	Language Of Instruction	Course Semester
INS 527	MECHANICAL VIBRATIONS	3 + 0	1	Turkish	2012-2013 Spring

Course Coordinator	E-Mail	Phone Number	Course Location	Attendance
			MUH B0106	%

Goals		Analyzing free and forced vibrations of rods
Content		Axial Vibrations of Rods; Torsional Vibrations (With concentrated mass); Free Vibrations of Beams (Euler beam, Timoshenko beam, Rotatory effect, Axial force effect, beams on elastic foundation, finite element method); Forced Vibration of Beams (Periodical forces, modes); Equations of Motions; Boundary Conditions. .

Topics

Weeks	Topics
1	Introduction
2	Beam Theories
3	Euler Beam Theory-Statics
4	Euler Beam Theory-Dynamics
5	Timoshenko Beam Theory-Statics
6	Timoshenko Beam Theory-Dynamics
7	Timoshenko Beam Theory-Dynamics
8	Timoshenko Beam Theory-Dynamics
9	Midterm
10	Higher Order Beam Theories
11	Yüksek Mertebeden Kiriş Teorileri
12	Reddy-Bickford Beam Theory
13	Reddy-Bickford Beam Theory
14	Presentation

Materials

Materials are not specified.

Resources

Course Assessment

Assesment Methods	Percentage (%)	Assesment Methods Title
Final Exam	60	Final Exam
Midterm Exam	40	Midterm Exam

L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes

Prospective Student