Ondokuz Mayıs Üniversitesi Bilgi Paketi - Ders Kataloğu

Description of Individual Course Units

Course Unit CodeCourse Unit TitleType of CourseYearSemesterECTS
ODY107 Physıcs 927001 1 1 3
Level of Course Unit
Short Cycle
Objectives of the Course
TGT will encounter a variety of applications, part of the understanding of events and situations, establishing the relationships between different events that appear, grasp basic scientific concepts they need to teach and çözümlergeliştirmede problems, accustom to scientific thinking.
Name of Lecturer(s)
Doç. Dr. Necmi DEGE
Learning Outcomes
  1. Vectors
  2. Lineer motions
  3. Work, power, energy, and energy transformations to grasp
  4. To be able to understand and apply the need for lifelong learning
  5. learn the basic concepts of physics education program of opticianry necessary
Mode of Delivery
Formal Education
Prerequisites and co-requisities
None
Recommended Optional Programme Components
None
Recommended or Required Reading
Fizik 1-2; R. A. Serway; Palme YayıncılıkTemel Fizik 1, P. M. Fishbane, S. gasiorowicz, S.T. Tornton; Arkadaş YayınlarıÜniversite Fiziği (Çeviri); H. D. Young, R. a. Freedman; Pearson, Addison-Wesley
Planned Learning Activities and Teaching Methods
Language of Instruction
Turkish
Work Placement(s)
None
Course Contents
Weekly Detailed Course Contents
Week Theoretical Practice Laboratory
1.Check-in: Measurement and dimensional analysis, units Vectors and vector analysis.
2.Motion in one dimension: the road, speed, acceleration and equations of motion
3.Motion in two dimensions: Projectile, circular motion, (classic) relative motion.
4.The laws of motion: Newton's laws, mass, gravity, weight. Friction and frictionless motion.
5.Circular motion: uniform and non-uniform circular motion, accelerated reference systems, movement, resistance moving environments.
6.Work and Kinetic Energy: Work done by a constant force, the variable his work force, kinetic energy, Work-kinetic energy theorem, Power, High-speed kinetic energy.
7.Potential energy and energy conservation. Conservative and nonconservative forces, conservation of mechanical energy, work energy theorem; And the relativistic mass of mass-energy equivalence, energy quantization
8.Electrostatics, electrical charge, Coulomb's Law, conductors and insulators, electrical forces and fields, electric field and potential difference, parallel metal plates
9.Electric current, resistance and Ohm's law (the potential difference (V), current (A) and resistance (ohms)), resistivity, electrical power and heat
10.Midterm Exam
11.Direct current circuits, circuit problems, the solution, ammeters and voltmeters, capacitors, dielectric concept
12.Capacitors, dielectric concept Biot-Savart Law of magnetism and magnetic field of the current
13.Ampere's law, magnetic field, magnetic field magnetic forces acting on moving loads into
14.Magnetic forces acting on the magnetic field and torque current passing off the road, and Faraday's law of magnetic flux
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight (%)
Attending Lectures530
Individual Study for Mid term Examination170
SUM220
End Of Term (or Year) Learning ActivitiesQuantityWeight (%)
Individual Study for Final Examination1100
SUM100
Term (or Year) Learning Activities40
End Of Term (or Year) Learning Activities60
SUM100
Workload Calculation
ActivitiesQuantityTime(hours)Total Workload(hours)
Midterm Examination111
Final Examination111
Attending Lectures14228
Individual Study for Mid term Examination5525
Individual Study for Final Examination3721
SUM76