Description of Individual Course Units
Course Unit CodeCourse Unit TitleType of Course UnitYear of StudySemesterNumber of ECTS Credits
BMB-22-116Elective126
Level of Course Unit
Second Cycle
Objectives of the Course
Explaining and making students use the most basic principles and concepts of physics within the framework of mechanical events that we can directly observe.
Name of Lecturer(s)
Alpaslan BAYRAKDAR
Learning Outcomes
11) Based on undergraduate level qualifications, they can develop their knowledge in the relevant program area at the level of expertise. 2) Can apply the knowledge gained in the field of physics to technology. 3) Evaluate the experimental data as necessary. 4) Examine the concepts and ideas in the field with scientific methods, interpret, evaluate and analyze the data 5) Define the problems related to Physics in Technology. Develop solutions for these, set up an appropriate set of experiments, make measurements and analyze the results by evaluating them.
Mode of Delivery
Daytime Class
Prerequisites and co-requisities
None
Recommended Optional Programme Components
Course Contents
Newton's law of dynamics, conservation principles; applying these to basic problems such as harmonic oscillators using necessary mathematical methods. Newton's law of gravity, planetary motion. Calculation of variation and its application to dynamics; Lagrange and Hamilton formalisms.
Weekly Detailed Course Contents
WeekTheoreticalPracticeLaboratory
1History of mechanic sciences, examples of Newtonian mechanics, Analytical mechanics
2Degrees of freedom, generalized coordinates, bond conditions for mechanical systems, Holonomic and non-holonomic mechanical systems
3Center of mass and kinetic energy software.
4Kinematics. Software for velocity and kinetic energy for Cartesian, cylindrical, spherical and polar coordinate systems
5Obtaining the principle of variation. Obtaining the generalized force
6D'Alembert system. Obtaining Lagrangian equations of motion for Holonomic and non-Holonomic mechanical systems
7Problem solving related to the solution of Lagrangian equations of motion.
8Hamiltonian Theory, Hamiltonian equations of motion, Canonical momentums.
9Problem solutions related to Hamiltonian equations of motion
10Midterm
11Two-body problem and reduction to one-mass motion, Centripetal force motion
12Obtaining the inverse force r^2 and trajectories for this force.
13Kepler's Laws and Planetary Motions
14Final exam
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight
Midterm Examination1100
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)
None
Workload Calculation
ActivitiesNumberTime (hours)Total Work Load (hours)
Midterm Examination133
Final Examination133
Quiz12020
Problem Solving13737
Individual Study for Mid term Examination12727
Individual Study for Final Examination15050
Homework14040
TOTAL WORKLOAD (hours)180
Contribution of Learning Outcomes to Programme Outcomes
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* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High
 
Iğdır University, Iğdır / TURKEY • Tel (pbx): +90 476 226 13 14 • e-mail: info@igdir.edu.tr