Description of Individual Course Units
Course Unit CodeCourse Unit TitleType of Course UnitYear of StudySemesterNumber of ECTS Credits
180104003103DYNAMICSCompulsory235
Level of Course Unit
First Cycle
Objectives of the Course
Putting the dynamic subjects of engineering mechanics on a solid foundation; For this purpose, the topics to be covered are the planar kinematics and kinetics of the point particle, the work and energy principles and the impulse and momentum for the point body, the kinematics and kinetics of the rigid body, the work and energy principles for the rigid body and the impulse and momentum and vibrations.
Name of Lecturer(s)
Dr. Muhammet Raci AYDIN
Learning Outcomes
1Ability to apply kinematic equations to a point object (in different coordinate systems)
2To be able to apply kinetic equations to point objects
3To be able to apply momentum, work and energy principles and conservation of energy to a point object
4To be able to apply kinematic equations to rigid bodies (in different coordinate systems)
5Being able to apply kinetic equations to rigid bodies
6To be able to apply the principles of momentum, work and energy and conservation of energy to a rigid body
7Basis the mechanical vibrations
Mode of Delivery
Daytime Class
Prerequisites and co-requisities
absent
Recommended Optional Programme Components
absent
Course Contents
Kinematics of Particles Kinetics of Particles: Newton’s Second Law Kinetics of Particles: Energy and Momentum Methods Systems of Particles Kinematics of Rigid Bodies Midterm exam Plane Motion of Rigid Bodies: Forces and Accelerations Plane Motion of Rigid Bodies: Energy and Momentum Methods Kinetics of Rigid Bodies in Three Dimensions Mechanical Vibrations An overview
Weekly Detailed Course Contents
WeekTheoreticalPracticeLaboratory
1Kinematics of Particles
2Kinematic equations in different coordinate systems
3Kinematics of Particles
4Kinetics of Particles: Newton’s Second Law
5Kinetics of Particles: Energy and Momentum Methods
6Systems of Particles
7Kinematics of Rigid Bodies
8Midterm exam
9Plane Motion of Rigid Bodies: Forces and Accelerations
10Plane Motion of Rigid Bodies: Energy and Momentum Methods
11Kinetics of Rigid Bodies in Three Dimensions
12Mechanical Vibrations
13general review of topics
14general review of topics
Recommended or Required Reading
R.C. Hibbeler, Engineering Mechanics: Dynamics, Prentice Hall, Ferdinand Beer, Jr., E. Russell Johnston, David Mazurek, Phillip Cornwell - Vector Mechanics for Engineers_ Statics and Dynamics (2012)
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight
Midterm Examination160
Quiz140
SUM100
End Of Term (or Year) Learning ActivitiesQuantityWeight
Final Examination1100
SUM100
Term (or Year) Learning Activities40
End Of Term (or Year) Learning Activities60
SUM100
Language of Instruction
Turkish
Work Placement(s)
absent
Workload Calculation
ActivitiesNumberTime (hours)Total Work Load (hours)
Midterm Examination14040
Final Examination15050
Makeup Examination122
Quiz313
Homework15050
TOTAL WORKLOAD (hours)145
Contribution of Learning Outcomes to Programme Outcomes
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1
PO
2
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3
PO
4
PO
5
PO
6
PO
7
PO
8
PO
9
PO
10
PO
11
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LO245435433444
LO353345435444
LO434444434354
LO533322343344
LO645445344333
LO733343333445
* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High
 
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