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DNK 201
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Course Information
Course Name
Turkish
Dinamik
English
Dynamics
Course Code
DNK 201
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
1
3
3
-
-
Course Language
English
Course Coordinator
Elmas Atabay
Course Objectives
1.To teach the basic principles of kinematics and kinetics of particles.
2.To teach the basic principles of planar kinematics and kinetics of rigid bodies.
3.To make an introduction to the subject of vibration analysis.
4.To teach students to construct dynamic models and to predict the responses of these models to applied forces using Newtonian mechanics.
Course Description
Kinematics of a particle
Kinetics of a particle.
Work and energy.
Impulse and momentum.
Planar kinematics of a rigid body.
Planar kinetics of a rigid body: Force and acceleration.
Planar kinetics of a rigid body: Work and energy.
Planar kinetics of a rigid body: Impulse and momentum.
Vibrations.
Course Outcomes
On completing this course students should
1.be able to select and use an appropriate coordinate system to describe particle motion
2.be able to describe particle motion using intermediate reference frames, which can be in relative motion (including rotation) with respect to each other
3.be able to formulate dynamic models in accelerating frames
4.be able to apply principles of conservation of momentum and/or energy to particles
5.be able to apply principles of conservation of momentum and/or energy to rigid bodies
6.be able to formulate and analyze dynamic models of rigid bodies in plane motion
7.be able to formulate and analyze dynamic models of rigid bodies in three dimensions
8.be able to utilize 2-body orbital mechanics to analyze space trajectories 9.be able to model and analyze simple vibration problems with and without damping
Pre-requisite(s)
FIZ 101 and MAT 101
Required Facilities
Other
Textbook
R. C. Hibbeler, Engineering Mechanics: Dynamics, Twelfth Edition in SI Units, Pearson, 2010.
Other References
Ferdinand P. Beer, E. Russell Johnston and Phillip J. Cornwell, Vector Mechanics for Engineers: Dynamics, Ninth Edition in SI Units, McGraw Hill, 2010.
J. L. Meriam and L. G. Kraige, Engineering Mechanics volume 2: Dynamics, SI Version, Third Edition, John Wiley & Sons, 1993.
Bela I. Sandor, Engineering Mechanics volume 2: Dynamics, Prentice Hall, 1983.
William F. Riley and Leroy D. Sturges, Engineering Mechanics: Dynamics, Second Edition, John Wiley & Sons, 1996.
Oliver M. O’Reilly, Intermediate Dynamics for Engineers, Cambridge, 2008.
Andrew Pytel and Jaan Kiusalaas, Engineering Mechanics: Dynamics, SI Edition, Harper Collins, 1996.
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