FACULTY OF ENGINEERING
MECHANICAL ENGINEERING
MECHANICAL ENGINEERING
Course Name   MECHANICAL VIBRATIONS
Semester Course Code Theoretical / Practice time ECTS
7 1210727 3 / 0 4
Course Degree Bachelor's degree
Course Language Turkish
Format of Delivery: Face to Face
Course Coordinator Assoc. Prof. Dr. Mete KALYONCU
Coordinator e-mail mkalyoncu selcuk.edu.tr
Instructors
Doç. Dr. Mete KALYONCU
Asistant Instructors
Arş.Gör.Muhammed Arif ŞEN
Course Objectives In this course, principles of mechanical vibrations are taught. The applications and importance of mechanical vibrations in the mechanical engineering field are presented. Analysis of mechanical vibrations and vibration isolation techniques are introduced.
Basic Sciences Engineering Scinces Social Sciences Educational Sciences Artistic sciences Medical Science Agricultural sciences
30 70 0 0 0 0 0
Course Learning Methods and Techniquies
Face to face teacihing
Week Course Content Resource
1 To be acquired basic information about vibrations, Theory of Vibrations with Applications, W.T.Thomson, 1988.
2 To understand vibration problems faced in practic Theory of Vibrations with Applications, W.T.Thomson, 1988.
3 Methods using in investigations of vibrations, using fields, basic information about application boundary R.F.Steidel, An Introduction to Mechanical Vibrations, 1989.
4 Methods using in investigations of vibrations, using fields, basic information about application boundary R.F.Steidel, An Introduction to Mechanical Vibrations, 1989.
5 Passing from real sistem to physical model and ability to form mathematical model from physical model Tse, Morse, Hinkle, Mechanical Vibrations Theory and Applications, 1986.
6 Passing from real sistem to physical model and ability to form mathematical model from physical model Tse, Morse, Hinkle, Mechanical Vibrations Theory and Applications, 1986.
7 Passing from real sistem to physical model and ability to form mathematical model from physical model Tse, Morse, Hinkle, Mechanical Vibrations Theory and Applications, 1986.
8 Midterm Exam
9 Experience to solve mathematical model and evaluate its results S.S.Rao, Mechanical Vibrations, Addison-Wesley, 1995.
10 Experience to solve mathematical model and evaluate its results S.S.Rao, Mechanical Vibrations, Addison-Wesley, 1995.
11 Experience to solve mathematical model and evaluate its results S.S.Rao, Mechanical Vibrations, Addison-Wesley, 1995.
12 Experince to define and solve vibration problem faced machines L.Meirovitch, Elements of Vibration Analysis, McGraw-Hill.1986.
13 Experince to define and solve vibration problem faced machines L.Meirovitch, Elements of Vibration Analysis, McGraw-Hill.1986.
14 Experince to define and solve vibration problem faced machines L.Meirovitch, Elements of Vibration Analysis, McGraw-Hill.1986.
15 Experince to define and solve vibration problem faced machines L.Meirovitch, Elements of Vibration Analysis, McGraw-Hill.1986.
Assesment Criteria   Mid-term exam Final exam
  Quantity Percentage Quantity Percentage  
Term Studies : - - - -
Attendance / Participation : - - - -
Practical Exam : - - - -
Special Course Exam : - - - -
Quiz : - - - -
Homework : - - - -
Presentations and Seminars : - - - -
Projects : - - - -
Workshop / Laboratory Applications : - - - -
Case studies : - - - -
Field Studies : - - - -
Clinical Studies : - - - -
Other Studies : - - - -
Mid-term exam   - 40 - -
Final exam   - - 1 60
ECTS WORK LOAD TABLE   Number Duration
Course Duration : 14 3
Classroom Work Time : 14 3
Presentations and Seminars : - -
Course Internship : - -
Workshop / Laboratory Applications : - -
Field Studies : - -
Case studies : - -
Projects : - -
Homework : 2 9
Quiz : - -
Mid-term exam : 1 8
Final Exam : 1 10
ECTS 4
No COURSE LEARNING OUTCOMES CONTRIBUTION
D.Ö.Ç. 1 To be introduced mathematical models and solution methods to be used in researhcing vibration mechanical systems. To be acquired application experience on using this information 4
* 1: Zayıf - 2: Orta - 3: İyi - 4: Çok İyi
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