School of Engineering \ Material Science and Nanotechnology Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Electrification, Electrical Forces and Field, Electrical work, Potential and Electrical potential energy, Capacitance and Capacitors, Current and Resistance and direct current circuits, Forces in the magnetic field, Magnetic Field Sources, Faraday's Law, Induction, AC and circuits, electromagnetic waves
Textbook and / or References
1. Serway, Beichner, Fen ve Mühendislik için Fizik 2, Palme Yayıncılık, Çeviri Editörü: Prof.
Dr. Kemal Çolakoğlu, 2002, ISBN 975-8624-22-9.
2. Young and Freedman Üniversite Fiziği, Cilt 2, Perason
3. Fishbane, Gasiorowicz, Thornton, Temel Fizik, Arkadaş Yayınevi, 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 the basic Electrostatics, Electric Current and Circuit, Magnetism background required for undergraduate education.
1. Understand the concepts of electric charge and electrification.
2. It analyzes the interaction of charges with each other and the fields of influence created by the charges. It explains the work done by electrical forces and the concepts of potential.
3. Examines the storage of electrical potential energy, capacitance and dielectric concepts.
4. It defines electric current, generators, resistors and explains how to set up and analyze electrical circuits.
5. The forces acting on current carrying wires in a magnetic field and their applications are explained.
6. The reasons that create the Magnetic Field are taught.
7. Faraday's law, Lens law, how induction emf is formed and how mechanical energy is converted into electrical energy are taught.
8. As a result of this, influencers and their applications in technology are taught.
9. AC circuits
10. The formation and properties of electromagnetic waves are explained.
Week 1: Electric Charge and Electric Field
Week 2: Gauss's Law
Week 3: Electric Potential
Week 4: Capacitance and Dielectrics
Week 5: Current, Resistance and Electromotive Force
Week 6: Direct Current Circuits
Week 7: Magnetic Field and Magnetic Forces
Week 8: Sources of Magnetic Fields
Week 9: Electromagnetic Influence, Faraday's Law
Week 10: Influence and Effectors
Week 11: Alternating Current
Week 12: Electromagnetic Waves
Tentative Assesment Methods
Class Participation 5%
Homework 5%
Midterm Exams 40%
Final 50%
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