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DNK 201
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Course Information
Course Weekly Lecture Plan
Course Evaluation Criteria
Course Information
Course Name
Turkish
Dinamik
English
Dynamics
Course Code
DNK 201
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
2
3
3
-
-
Course Language
Turkish
Course Coordinator
Banu Tansel
Course Objectives
to understand the key concepts and ideas of Dynamics
2. to comprehend interrelated but separate principles of Dynamics, understand their
distinctive features, and learn to apply on proper type of problems
3. to introduce different approaches for studying dynamic problems
4. perform dynamic analysis of rigid mechanical systems in a systematic way and to
evaluate resulting dynamic configurations
5. to introduce the fundamentals of mechanical vibrations and study one-degree of
freedom systems
Course Description
Temel tanımlar ve kavramlar
Parçacık kinematiği: Doğrusal hareket; Genel eğrisel hareket; Bağıl ve kısıtlı
hareket
Parçacık kinetiği: Hareket denklemleri; İş-enerji ilkesi; Lineer itme-momentum
ilkesi; Açısal itme-momentum ilkesi; Temel korunum ilkeleri; Çarpışma; Güç
Katı cisimlerin düzlemsel kinematiği: Öteleme; Sabit bir eksen etrafında dönme;
Genel düzlemsel hareket (geometrik yaklaşım, bağıl hareket, ani dönme merkezi)
Katı cisimlerin düzlemsel kinetiği: Hareket denklemleri, İş-enerji ilkesi; İtmemomentum ilkesi; Temel korunum ilkeleri
Katı cisimlerin 3-B kinematiği: Sabit bir eksen etrafında dönme; Genel hareket
Katı cisimlerin 3-B kinetiği: Hareket denklemleri, İş-enerji ilkesi; İtmemomentum ilkesi
Katı cisimler için titreşimin temelleri
Course Outcomes
Students who pass the course will be able to;
1. draw successful free-body diagrams
2. choose the most beneficial coordinate systems for describing the motion of
mechanical systems
3. knows the differences between real and effective forces as well as internal and
external forces, and understand the working nature of different types of forces
4. turn dynamic problems into mathematical models
5. perform dynamic analysis of particle systems and rigid bodies
6. apply appropriate mechanical principles into dynamic problems
7. model and analyze simple vibrating mechanical systems
Pre-requisite(s)
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