1. FIRST CYCLE - BACHELOR'S DEGREE
  2. FACULTY OF ENGINEERING
  3. MECHANICAL ENGINEERING DEPARTMENT
  4. 244 Mechanical Engineering (Evening Classes)
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
MENG 218DYNAMICS3 + 04th Semester3

COURSE DESCRIPTION
Course Level Bachelor's Degree
Course Type Compulsory
Course Objective Dynamics of engineering mechanics theory and applications to provide clear and detailed manner.
Course Content Kinematics of Particles: Rectilinear motion, Position, velocity acceleration vertical components. Curvilinear motion, relative motion of particles. Kinetics of Particles: Newton’s Second law, Equations of motion, Dynamic Equilibrium, motions of particles. Work of Force, Kinetic energy of particle, Potential energy, Conservation of Energy. Impulse and Momentum, Impulsive motion. Impact, Direct central impact, Oblique central Impact. System of Particles. Kinematics of Rigid Bodies: Translation, rotation around a fixed axis, Rotation, General Plane Motion. Absolute and relative velocity and acceleration in Plane motion. Plane motion of a Particle relative to a rotating frame, Coriolis acceleration. Vibrations.
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Students learn theory and applications of engineering mechanics, dynamics.
2AAA
3AAA
4AAA

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11
LO 00155543434232
LO 00255543434232
LO 00355543434232
LO 00455543434232
Sub Total20202016121612168128
Contribution55543434232

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Mid-terms11616
Final examination12020
Total Work Load

ECTS Credit of the Course





78

3
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2023-2024 Spring3ÖZKAN ÖZBEK
Details 2023-2024 Spring4ÇİĞDEM ERSAN
Details 2022-2023 Spring3ÇİĞDEM ERSAN
Details 2022-2023 Spring4ÖZKAN ÖZBEK
Details 2021-2022 Spring3YASİN YILMAZ
Details 2021-2022 Spring4YASİN YILMAZ
Details 2020-2021 Spring3ERDİNÇ ŞAHİN ÇONKUR
Details 2020-2021 Spring3OKAN MİNNETOĞLU
Details 2020-2021 Spring4ERDİNÇ ŞAHİN ÇONKUR
Details 2020-2021 Spring4OKAN MİNNETOĞLU
Details 2019-2020 Spring3ERDİNÇ ŞAHİN ÇONKUR
Details 2019-2020 Spring4ERDİNÇ ŞAHİN ÇONKUR
Details 2018-2019 Spring3ERDİNÇ ŞAHİN ÇONKUR
Details 2018-2019 Spring4ERDİNÇ ŞAHİN ÇONKUR
Details 2017-2018 Spring4NUMAN BEHLÜL BEKTAŞ
Details 2016-2017 Spring4NUMAN BEHLÜL BEKTAŞ
Details 2015-2016 Spring3NUMAN BEHLÜL BEKTAŞ
Details 2014-2015 Summer1NUMAN BEHLÜL BEKTAŞ
Details 2014-2015 Summer1NUMAN BEHLÜL BEKTAŞ
Details 2014-2015 Spring3NUMAN BEHLÜL BEKTAŞ
Details 2013-2014 Spring3NUMAN BEHLÜL BEKTAŞ
Details 2012-2013 Spring3NUMAN BEHLÜL BEKTAŞ


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
MENG 218 DYNAMICS 3 + 0 3 Turkish 2023-2024 Spring
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Assoc. Prof. Dr. ÖZKAN ÖZBEK ozbek@pau.edu.tr MUH B0131 %70
Goals Dynamics of engineering mechanics theory and applications to provide clear and detailed manner.
Content Kinematics of Particles: Rectilinear motion, Position, velocity acceleration vertical components. Curvilinear motion, relative motion of particles. Kinetics of Particles: Newton’s Second law, Equations of motion, Dynamic Equilibrium, motions of particles. Work of Force, Kinetic energy of particle, Potential energy, Conservation of Energy. Impulse and Momentum, Impulsive motion. Impact, Direct central impact, Oblique central Impact. System of Particles. Kinematics of Rigid Bodies: Translation, rotation around a fixed axis, Rotation, General Plane Motion. Absolute and relative velocity and acceleration in Plane motion. Plane motion of a Particle relative to a rotating frame, Coriolis acceleration. Vibrations.
Topics
WeeksTopics
1 Kinematics of Particles.
2 Solving problems of Kinematics of Particles.
3 Kinetics of Particles; mass, force - acceleration.
4 Solving problems of Particles; mass, force - acceleration.
5 Kinetics of Particles; principals of work and energy and its practices.
6 Kinetics of particles; problem solving related with work and energy principles.
7 Kinetics of particles; collision, impulse-momentum principles and practices.
8 Kinetics of particles; problem solving related with collision, impulse-momentum principles.
9 Midterm exam (according to academic calendar)
10 Planar kinematics of rigid bodies.
11 Planar kinematics of rigid bodies and problem solving.
12 Planar kinetics of rigid bodies.
13 Planar kinetics of rigid bodies and problem solving.
14 Planar kinetics and kinematics of rigid bodies and problem solving.
Materials
Materials are not specified.
Resources
ResourcesResources Language
RC Hibbeler, SC Fan, Engineering Mechanics Dynamics, Literature Publishing, London, 2009Türkçe
RC Hibbeler, SC Fan, Engineering Mechanics Dynamics, Literature Publishing, London, 2009Türkçe
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam50Final Exam
Midterm Exam50Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes