Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits
2	FIZ102	Physics Iı	3+0+0	3	6

Course Details

Language of Instruction	Turkish
Level of Course Unit	Bachelor's Degree
Department / Program	Computer Engineering
Mode of Delivery	Face to Face
Type of Course Unit	Compulsory
Objectives of the Course	Teaching of electric and magnetism , which are the basic subjects of engineering, and the creation of an appropriate background
Course Content	Electrical Conductivity, Electrical Current Resources Electric current, potential difference, Resistors, Series and Parallel Connection of resistors, Ohm s Law Connection of generators and Kirchoff s Rules Wheatstone Bridge, Transformers Electric Fields and Electric Potential Capacitors, Charge and Discharge of Capacitors Magnetic Fields and Magnetic Fields created by the current Magnetic Force and Magnetic Induction Alternating Current Circuits, RLC circuits
Course Methods and Techniques
Prerequisites and co-requisities	None
Course Coordinator	None
Name of Lecturers	Associate Prof.Dr. Özden ASLAN ÇATALTEPE
Assistants	Research Assist. Emre Tuğberk Gülnergiz
Work Placement(s)	No

Recommended or Required Reading

Resources	Fundamentals of Physics, D. Halliday, R.Resnick, J. Walker, John Wiley &Sons, Inc., Sixth edition, 2001 Physics for Scientist and Engineers with Modern Physics, Third edition updated version, Reymond Serway, Saunders College Publishing, 1992
	Lectures+Question-Answer+Laboratory


	%40 Ara sınav+%60 Final

Course Category

Mathematics and Basic Sciences

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Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

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ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Course Duration	14	3	42
Hours for off-the-c.r.stud	14	4	56
Assignments	14	3	42
Mid-terms	1	2	2
Laboratory	14	2	28
Final examination	1	2	2
Total Work Load			Number of ECTS Credits 6 172

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Understanding the subject of Coulomb Law, electrical field, electrical potantial and potential energy and acquiring the ability to solve the related problems.
2	Understanding the charge and discharge of capacitors, the acquiring the ability to solve the problems of series and parallel connected resistors and applying of Kirchoff Rules to complex circuits
3	Understanding concepts of the magnetic fields, magnetic forces and magnetic induction
4	Learning the Maxwell Equations and the making correlation of other engineering applications related
5	Learning alternating current circuits
6	Conducting experiments based on electrical and magnetical subjects

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	Electrical Conductivity of Matter
2	Coulomb Law
3	Electrical Fields, Gauss Law
4	Electrical potantial and potential energy
5	The obtaining of electrical field from elecrical potantial
6	Capacitors, Charge and Discharge of Capacitors
7	Electrical current, potantial difference, resistors, series and paralllel connection of resistors, Ohm's Law
8	Connections of generators and Kirchoff's Rules
9	Mid-term exam
10	Magnetic fields and created by the current
11	Magnetic Force and Biot Savart Kanunu
12	Magnetic Induction
13	Maxwell Equations
14	Alternating current circuits, RLC circuits
15	Final exam

Contribution of Learning Outcomes to Programme Outcomes

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