School of Engineering \ Material Science and Nanotechnology Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Understanding and conducting experiments on electrostatic potential, equipotential lines, electric field, resistor color codes, Ohm’s law, equivalent resistance, charge storage in a capacitor, RC circuits, magnetic field, magnetic force, parameters affecting magnetic force, Biot–Savart law, Faraday’s law of induction, magnetic flux.
Textbook and / or References
1. Serway, Beichner, Physics for Scientists and Engineers 2, Palme Publishing, Turkish Translation Editor: Prof. Dr. Kemal Çolakoğlu, 2002, ISBN 975-8624-22-9
2. Young and Freedman, University Physics, Volume 2, Pearson
3. Fishbane, Gasiorowicz, Thornton, Fundamentals of Physics, Arkadaş Publishing, 2003, ISBN 975-509-368-9
4. Giancoli, Physics Principles with Applications, Prentice Hall
5. Halliday, Resnick, Walker, Fundamentals of Physics, John Wiley & Sons
To provide students with an experimental understanding of the fundamental concepts of electrostatics, electric current and circuits, and magnetism necessary for undergraduate education.
1. Gaining the ability to recognize electronic circuit elements and use electronic measurement instruments
2. Understanding the concepts of potential difference and electric field
3. Learning to set up basic circuits using time-dependent and time-independent sources and circuit elements
4. Understanding the forces acting on a current-carrying wire within a magnetic field and the forces exerted by the wire
5. Gaining knowledge about the magnetic field generated by coils
6. Understanding the concept of magnetic induction and gaining general knowledge about its applications
Week 1: Equipotential Lines and Electric Field Lines
Week 2: Ohm’s Law, Series and Parallel Connections of Resistors
Week 3: Parallel Plate Capacitor and Dielectric Experiment
Week 4: Charging/Discharging of a Capacitor
Week 5: Forces on a Current-Carrying Wire: Current Balance
Week 6: Magnetic Field of a Coil
Week 7: Magnetic Induction
Week 8: -
Week 9: -
Week 10: -
Week 11: -
Week 12: -
Tentative Assesment Methods
• Reports: 70%
• Final Exam: 30%
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Program Outcome
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Course Outcome
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B, C
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B, C
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B, C
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B, C
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B, C
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B, C
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