Nevşehir Hacı Bektaş Veli University Course Catalogue

Information Of Programmes

VOCATIONAL SCHOOL OF HACI BEKTAŞ VELİ / MEK103 - MECHATRONICS

Code: MEK103 Course Title: STATIC AND DYNAMIC Theoretical+Practice: 3+1 ECTS: 4
Year/Semester of Study 1 / Fall Semester
Level of Course Short Cycle Degree Programme
Type of Course Compulsory
Department MECHATRONICS
Pre-requisities and Co-requisites None
Mode of Delivery Face to Face
Teaching Period 14 Weeks
Name of Lecturer HALİL ÇELİK (halil.celik@nevsehir.edu.tr)
Name of Lecturer(s) HALİL ÇELİK,
Language of Instruction Turkish
Work Placement(s) None
Objectives of the Course
Mechatronics program is to create an infrastructure for courses such as Strength and Mechanical Elements that students will take in the following semesters. For this purpose; It is aimed to teach the mechanics of particle and rigid bodies, truss and frame systems, center of gravity, internal force diagrams, friction, moments of inertia, dynamic concepts, general speed and acceleration, work-energy, pulse-momentum and motion equations for the material point.

Learning Outcomes PO MME
The students who succeeded in this course:
LO-1 Recognition of mechanical systems PO-
Examination
LO-2 Analyze the mechanical system PO-
Examination
LO-3 Ability to use vectorial solutions in engineering problems PO-
Examination
LO-4 Learning external and internal forces in mechanics PO-
Examination
LO-5 Learning of moments of inertia PO-
Examination
LO-6 Learning dynamic concepts PO-
Examination
PO: Programme Outcomes
MME:Method of measurement & Evaluation

Course Contents
Balance of particle, Balance of rigid bodies, Volumes of fields, Mass centers of masses and wire type elements, Truss systems, Frame systems and force analysis of machines, Internal force diaphragms, Friction, Moment of inertia, Basic concepts in dynamics, Kinematic analysis of material point, Reference systems and coordinate Transformations, Translation and Rotational Motion, Angular Velocity and Angular Acceleration, General Velocity and Acceleration Formulas, Kinetics of Particles, Motion Equations, Newton's Second Law, Work-Energy for Particles, Plane-Momentum, Kinematics of Rigid Bodies and Planar motion, relative motion of rigid bodies, kinetics of rigid bodies, work-energy for rigid bodies, motion equations.
Weekly Course Content
Week Subject Learning Activities and Teaching Methods
1 Course introduction, introduction to statics and basic concepts Narration, Question and answer
2 Statics of Particles Narration, Question and answer
3 Statics of Particles Narration, Question and answer
4 Rigid Bodies: Equivalent Systems of Forces Narration, Question and answer
5 Rigid Bodies: Equivalent Systems of Forces Narration, Question and answer
6 Equilibrium of Rigid Bodies Narration, Question and answer
7 Equilibrium of Rigid Bodies Narration, Question and answer
8 mid-term exam
9 Distributed Forces: Centroid and Centers of Gravity Narration, Question and answer
10 Distributed Forces: Centroid and Centers of Gravity Narration, Question and answer
11 Analysis of Structures Narration, Question and answer
12 Analysis of Structures Narration, Question and answer
13 Forces in Beams and Cables Narration, Question and answer
14 Forces in Beams and Cables Narration, Question and answer
15 Distributed Forces:Moments of Inertia Narration, Question and answer
16 final exam
Recommend Course Book / Supplementary Book/Reading
1 Mühendisler için Vektör Mekaniği-Statik, y:F.P. Beer, E.R. Johnston Jr & E.R.Eizenberg ç: Ö. Gündoğdu, H.R.Öz & O. Kopmaz
2 Mühendislik Mekaniği-Statik, R. C. Hibbeler & S.C. Fan Statik, E. Erdoğan, M. Savcı &. T. ToprakEngineering Mechanics- Statics, J.L. Meriam & L.G. KraigeEngineering Mechanics- Statics, W.F. Riley & L.D Sturges
3 R.C.Hibbeler , Mühendislik Mekaniği: Dinamik, Literatür, İstanbul, 2004.
4 Beer & Johnston, Mühendislik Mekaniği: Dinamik, Birsen, İstanbul, 1991.3- Merim & Kraige, Engineering Mechanics, Wiley, 2003.
Required Course instruments and materials
Computer, projection.

Assessment Methods
Type of Assessment Week Hours Weight(%)
mid-term exam 8 1 40
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation
5.Report
6.Workshop
7.Performance Project
8.Term Paper
9.Project
final exam 16 1 60

Student Work Load
Type of Work Weekly Hours Number of Weeks Work Load
Weekly Course Hours (Theoretical+Practice) 4 14 56
Outside Class
       a) Reading 2 7 14
       b) Search in internet/Library 2 10 20
       c) Performance Project 0
       d) Prepare a workshop/Presentation/Report 0
       e) Term paper/Project 0
Oral Examination 0
Quiz 0
Laboratory exam 0
Own study for mid-term exam 4 4 16
mid-term exam 1 1 1
Own study for final exam 4 3 12
final exam 1 1 1
0
0
Total work load; 120