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  Course Description
Course Name : Introduction to Mechanical Vibrations

Course Code : MK-509

Course Type : Optional

Level of Course : Second Cycle

Year of Study : 1

Course Semester : Fall (16 Weeks)

ECTS : 6

Name of Lecturer(s) : Prof.Dr. VEBİL YILDIRIM

Learning Outcomes of the Course : Is equipped with knowledge of Basic Mathematics, Science and Engineering.
Uses English effectively for technical or non-technical issues
Applies the basic principles of mechanical engineering
Is equipped with a variety of engineering techniques
Prepares computer software on the subject

Mode of Delivery : Face-to-Face

Prerequisites and Co-Prerequisites : None

Recommended Optional Programme Components : None

Aim(s) of Course : Giving a basic knowledge of Mechanical Vibrations and their applications in engineering.

Course Contents : General considerations. The solution methods. Free and forced responces of single-degree of freedom linear systems. Two-degree of freedom systems and their applications in engineering. Multi-degree of freedom systems.

Language of Instruction : English

Work Place : Classroom


  Course Outline /Schedule (Weekly) Planned Learning Activities
Week Subject Student's Preliminary Work Learning Activities and Teaching Methods
1 Introduction: Fundamental concepts and principles Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
2 General considerations Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
3 The solution methods Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
4 The solution methods Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
5 Free responces of single-degree of freedom linear systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
6 Free responces of single-degree of freedom linear systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
7 Forced responces of single-degree of freedom linear systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
8 Forced responces of single-degree of freedom linear systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
9 Two-degree of freedom systems and their applications Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
10 Two-degree of freedom systems and their applications Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
11 Two-degree of freedom systems and their applications Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
12 Midterm Exam
13 Multi-degree of freedom systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
14 Multi-degree of freedom systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
15 Multi-degree of freedom systems Related Topics and Assignments Lecturing, discussion, comparison, Problem Solving
16/17 Final Exam


  Required Course Resources
Resource Type Resource Name
Recommended Course Material(s)  Lecture Notes
Required Course Material(s)  Books or book chapters containing the above issues.


  Assessment Methods and Assessment Criteria
Semester/Year Assessments Number Contribution Percentage
    Mid-term Exams (Written, Oral, etc.) 1 50
    Homeworks/Projects/Others 3 50
Total 100
Rate of Semester/Year Assessments to Success 40
 
Final Assessments 100
Rate of Final Assessments to Success 60
Total 100

  Contribution of the Course to Key Learning Outcomes
# Key Learning Outcome Contribution*
1 Is equipped with the basic knowledge of math, science and engineering 5
2 Is dominated with basic concepts, theories and principles in mechanical engineering 5
3 Plans and does experiments in advanced level, interpretes and analizes the results and the data 4
4 Is equipped with a variety of skills and advanced engineering techniques 5
5 To design a system, component or process in order to meet the needs of various engineering problems within the limitations of technical, economic, environmental, manufacturability, sustainability 4
6 Independently reviews and learns the applications in an enterprise, makes a critical assessment of the problems faced with, has the ability of selecting the proper technique to formulate problems and propose solutions 3
7 Identifies a product or its production process, design, development, and prioritise its use 3
8 Becomes aware of the necessity of lifelong learning and continuously self-renew 3
9 Is capable of effective oral and written English for technical or non-technical use 4
10 Uses computers effectively, has the ability of computer-aided drafting, design, analysis, and presentation 3
11 Has teamwork skills, good communication skills and works efficiently as a member of versatile and an interdisciplinary team 0
12 Is aware of the technical and ethical responsibilities, inquisitive and innovative 5
* Contribution levels are between 0 (not) and 5 (maximum).

  Student Workload - ECTS
Works Number Time (Hour) Total Workload (Hour)
Course Related Works
    Class Time (Exam weeks are excluded) 14 3 42
    Out of Class Study (Preliminary Work, Practice) 14 5 70
Assesment Related Works
    Homeworks, Projects, Others 3 6 18
    Mid-term Exams (Written, Oral, etc.) 1 4 4
    Final Exam 1 8 8
Total Workload: 142
Total Workload / 25 (h): 5.68
ECTS Credit: 6