Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits
8	MTMS408	Electrical Properties Of The Material	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	Elective
Objectives of the Course	Introducing the engineering properties of electrical materials to electrical and electronics engineering students
Course Content	Principle of electrical conduction, characterization of materials according to their electrical properties, magnetic properties of materials
Course Methods and Techniques
Prerequisites and co-requisities	None
Course Coordinator	Associate Prof.Dr. Murat Danışman
Name of Lecturers	None
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources	Engineering Materials Science, Milton Ohring Fundamentals of Materials Science and Engineering, William D Callister
	Oral presentation

Course Category

Mathematics and Basic Sciences	%10
Engineering	%40
Science	%20
Field	%30

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

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	3,50	49
Mid-terms	1	2	2
Final examination	1	2	2
Total Work Load			Number of ECTS Credits 3 95

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

No	Learning Outcomes
1	Theory of electrical conduction
2	Properties of conductors and semiconductor
3	Properties of insulators and their properties in an electrical field.
4	Understanding the properties of magnetic materials

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	Introduction to electrical materials and theory of conductivity
2	Conduction band theory in conductors and atomic fundamentals of conduction
3	Ferni-Dirac Function, population density and calculation of carrier denstiy.
4	thermionic emission, photoemission, photoelectric effect, free electron and work function
5	Electrical resistivity of pure metals and alloys. Effect of alloying element on resistivity
6	Effect of temperature on electrical resistivity, effect of atomic structure on resistivity, Seebeck and Peltier effects
7	Mid-term exams
8	Electrical resistance in intrinsic semiconductors, calculation of carrier density and understanding the parameters that effect carrier density
9	Types of superconductivity, Cooper theory, 1st and 2nd type superconductors.
10	Dielectric materials, effect of electrical field on dielectric materials, fundamentals of capacitance and polarization
11	Polarization, types of polarization, general properties of glasses and ceramics.
12	Conduction theory in ceramics, polarization under variable electrical field, power loss and frequency material dependency.
13	Temperature dependency in dielectric materials and theory of conduction
14	Magnetic properties of materials, classification of magnetic materials, B-H curve, hard and soft magnetic materials

Contribution of Learning Outcomes to Programme Outcomes

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