# GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
MECHANICS II (DYNAMICS)/CE224
 Course Title: MECHANICS II (DYNAMICS) Credits 3 ECTS 5 Course Semester 4 Type of The Course Compulsory
COURSE INFORMATION
-- (CATALOG CONTENT)
-- (TEXTBOOK)
-- (SUPPLEMENTARY TEXTBOOK)
-- (PREREQUISITES AND CO-REQUISITES)
-- LANGUAGE OF INSTRUCTION
English
-- COURSE OBJECTIVES
-- COURSE LEARNING OUTCOMES
Analyze the problems related with particle kinematics,
Determine the kinematical quantities for relative and dependent motion,
Define the components of kinematical quantities in certain coordinate systems,
Write the equation of motion for different coordinate systems and solve kinetic problems,
Solve particle kinetics problems using energy methods ,
Solve particle kinetics problems using momentum methods,
Analyze systems of rigid bodies and define the kinematic quantities for each rigid body,
Solve rigid body kinetics problems using energy and momentum methods,
Solve one degree of freedom vibration problems.
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-- MODE OF DELIVERY
The mode of delivery of this course is Face to face
 --WEEKLY SCHEDULE 1. Week Course information, particle kinematics, definition of motion, rectilinear and curvilinear motion. 2. Week Curvilinear motion: Cartesian components, normal and tangential components, cylindrical and polar components. 3. Week Planar relative motion: Motion of coordinate frame, planar dependent and relative motion. 4. Week Particle kinetics: Newton’s laws of motion, equation of motion in Cartesian coordinate system, equation of motion for system of particles. 5. Week Particle kinetics: Equation of motion using normal and tangential coordinates, Polar coordinates. 6. Week Energy methods: Work done by a force, work and energy principle, work and energy principle for system of particles, conservation of energy 7. Week Momentum methods: Linear momentum and impulse, particle systems, angular momentum, conservation of momentum 8. Week Momentum methods: Linear momentum and impulse, particle systems, angular momentum, conservation of momentum and Midterm examination-1 9. Week Rigid body kinematics: Planar motion, translation and rotation about a fixed axis. Velocity and acceleration analysis for absolute and relative motion 10. Week Rigid body kinetics: Mass moment of inertia, equation of motion. 11. Week Rigid body kinetics: Energy and momentum methods. 12. Week Rigid body kinetics: Energy and momentum methods. 13. Week Midterm examination-2 14. Week Vibrations: Particle and rigid body vibrations. 15. Week Vibrations: Particle and rigid body vibrations. 16. Week -
-- TEACHING and LEARNING METHODS
-- ASSESSMENT CRITERIA
 Quantity Total Weighting (%) Midterm Exams 2 60 Assignment 0 0 Application 0 0 Projects 0 0 Practice 0 0 Quiz 0 0 Percent of In-term Studies 60 Percentage of Final Exam to Total Score 40