# COURSE UNIT TITLE

: DYNAMICS

#### Description of Individual Course Units

Course Unit Code Course Unit Title Type Of Course D U L ECTS
MAK 2009 DYNAMICS COMPULSORY 3 0 0 5

#### Offered By

Mechanical Engineering

#### Level of Course Unit

First Cycle Programmes (Bachelor's Degree)

#### Course Coordinator

ASISTANT PROFESSOR OKAN ÖZDEMIR

#### Offered to

Textile Engineering

#### Course Objective

Defining the basic concepts in dynamics, providing the required capabilities to use the principles of Newtonian mechanics and mathematical principles to the application of engineering systems in motion, constructing mathematical models of engineering problems involving rigid bodies under the action of forces and developing a systematic, logical and sequential approach for the solution, rational interpretation of dynamic events by considering the solution of the model.

#### Learning Outcomes of the Course Unit

 1 To identify the basic physical and mathematical concepts and Newton s laws in dynamics. 2 To interpret the kinematics related to the motion of a particle in different coordinate systems. 3 To solve problems concerning the relative motion of particles. 4 To relate the different methods associated with kinetics of particles to solutions of problems. 5 To evaluate the planar kinematics of rigid bodies by using translating and rotating coordinate axes. 6 Using the information gained by throughout the study of the motion of particles and rigid bodies, to identify solutions about the planar kinetics of rigid bodies.

Face -to- Face

None

None

#### Course Contents

 Week Subject Description 1 Definition of Mechanics, Basic Concepts, Newton Laws, Units 2 Rectilinear Motion, Two Dimensional Curvilinear Motion 3 Cartesian Coordinate System, Normal and Tangential Coordinate System 4 Polar Coordinate System 5 Motion with Respect to Translating Axes, Constrained Motion of Connected Particles 6 Newton s Second Law Rectilinear Motion, Curvilinear Motion 7 1. Midterm 8 Work Energy Principle 9 Impuls Momentum Method 10 Impact 11 Kinematics of Rigid Bodies Rotation, Absolute Motion, Instantaneous Center of Zero Velocity 12 2. Midterm 13 Kinematics of Rigid Bodies Rotation, Absolute Motion, Instantaneous Center of Zero Velocity 14 Motion with Respect to Translating and Rotating Axes 15 Final 16 Final

Textbook(s): Engineering Mechanics: Dynamics, J.L. Meriam, L.G. Kraige, 6th Edition, Wiley Publications, 2007.
Supplementary Book(s): Engineering Mechanics: Dynamics, R. C. Hibbeler, 12th Edition, Pearson Prentice Hall Publications, 2010.
Vector Mechanics for Engineers: Dynamics, F. P. Beer, E. R. Johnston, JR., P. J. Cornwell, 9th Edition, McGraw Hill Publications, 2010.
References:
Materials: Course notes

#### Assessment Methods

 SORTING NUMBER SHORT CODE LONG CODE FORMULA 1 MTE1 MIDTERM EXAM 1 2 MTE2 MIDTERM EXAM 2 3 FIN FINAL EXAM 4 FCG FINAL COURSE GRADE MTE1 * 0.25 + MTE2 * 0.25 + FIN * 0.50 5 RST RESIT 6 FCGR FINAL COURSE GRADE (RESIT) MTE1 * 0.25 + MTE2 * 0.25 + RST * 0.50

None

To be announced.

Turkish

To be announced.

#### Contact Details for the Lecturer(s)

Dokuz Eylül University, Faculty of Engineering, Department of Mechanical Engineering
bulent.icten@deu.edu.tr

To be announced.

None