School of Engineering \ Mechanical Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Particle kinematics: Linear kinematics: Linear motion. Curvilinear motion. Particle kinetics: Force and acceleration. Newton's law of motion. Work and energy: Power and efficiency. The principle of particle repulsion and momentum. Collision. Angular thrust and momentum. Planar kinematics of a rigid body: Rigid body motion. Relative motion analysis. Planar kinetics of a rigid body: Force and acceleration. Work and energy. Thrust and momentum.
Textbook and / or References
1. R. C. Hibbeler, Engineering Mechanics: Dynamics, SI Version, 12th Edition in SI Units, Prentice Hall, 2010. (Textbook)
2. J.L. Meriam, L.G. Kraige, Engineering Mechanics: Dynamics, SI Version, 6th Edition, Wiley, 2008.
To study the dynamic equilibrium of particles and rigid bodies based on the basic principles of mechanics. To study the absolute and relative motions of bodies depending on time and the chosen set of axes. To provide the necessary background for the solution of engineering problems encountered in the fields of strength, machine elements, machine theory, machine dynamics and control.
1. To study the basic concepts of mechanics and the equilibrium conditions of rigid bodies in dynamic equilibrium, mainly by vector analysis.
2. To investigate the time-varying complex motions of bodies such as rotation, translation, precession, collision, vibration.
3. To analyze the absolute and relative motions and the real and imaginary forces and accelerations that occur with respect to the selected set of moving axes.
Week 1: Kinematics of Particle
Week 2: Kinematics of Particle
Week 3: Kinetics of Particle: Force and Acceleration
Week 4: Kinetics of Particle: Force and Acceleration
Week 5: Kinetics of Particle: Work and Energy
Week 6: Kinetics of Particle: Thrust and Momentum
Week 7: Planar Kinematics of a Solid Body
Week 8: Planar Kinematics of a Solid Body
Week 9: Planar Kinetics of a Solid Body: Force and Acceleration
Week 10: Planar Kinetics of a Solid Body: Force and Acceleration
Week 11: Planar Kinetics of Solids: Work and Energy
Week 12: Planar Kinetics of a Solid Body: Thrust and Momentum
Tentative Assesment Methods
Homework 15%
Midterm Exams 50%
Final 35%
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Program Outcome
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Course Outcome
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B
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C
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B
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C
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B
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C
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