Kocaeli University / European Credit Transfer System (ECTS)

Name of Lecturer(s)

Prof. Dr. Nurettin ABUT
Associate Prof. Dr. Ersoy BEŞER
Associate Prof. Dr. Mehmet Zeki BİLGİN
Assistant Prof. Dr. Esra KANDEMİR BEŞER

Learning Outcomes of the Course Unit
Program Competencies-Learning Outcomes Relation

Learning Outcomes of the Course Unit

1) Identify the importance of electrical machines
2) Classify electrical machines.
3) Distinguish motors and generators
4) Identify production of magnetic field
5) Identify Biot-Savart Law.
6) Identify Ampere Law.
7) Recognize flux and inductance.
8) Identify saturtaion and hysteresis.
9) Distinguish magnetic circuits.
10) Identify permanent magnet materials.
11) Identify Faraday and Lenz Laws.
12) Identify stroring energy in a coil.
13) Distinguish transformers.
14) Identify electromechanic energy conversion principles.
15) Identify linear dc machine.

Program Competencies-Learning Outcomes Relation

		Program Competencies
		1	2	3	4	5	6	7	8	9	10
Learning Outcomes
	1	No relation	High	No relation	No relation	No relation	No relation	No relation	No relation	No relation	Middle
	2	No relation	High	No relation	No relation	No relation	No relation	No relation	No relation	No relation	Low
	3	No relation	High	No relation	No relation	No relation	No relation	No relation	No relation	No relation	Low
	4	No relation	High	Low	No relation	No relation	No relation	No relation	No relation	No relation	Low
	5	Middle	Middle	Low	No relation	No relation	No relation	Low	No relation	No relation	Low
	6	Middle	Middle	Low	No relation	No relation	No relation	Low	No relation	No relation	Low
	7	No relation	High	Middle	No relation	No relation	No relation	No relation	No relation	No relation	Low
	8	Low	Middle	Low	No relation	No relation	No relation	No relation	No relation	No relation	Low
	9	Middle	Middle	Low	No relation	No relation	No relation	No relation	No relation	No relation	Low
	10	Low	Low	Low	No relation	No relation	No relation	No relation	No relation	No relation	Low
	11	Middle	Middle	Middle	No relation	No relation	No relation	Low	No relation	No relation	Middle
	12	Low	Low	Middle	No relation	No relation	No relation	No relation	No relation	No relation	Low
	13	No relation	High	No relation	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	14	Middle	High	No relation	No relation	Low	No relation	No relation	No relation	No relation	Middle
	15	No relation	Middle	No relation	No relation	No relation	No relation	No relation	No relation	No relation	Low

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Not Required

Course Contents

Importance of electrical machines, classification of electrical machines, motos and generators, power relations, production of magnetic field, Biot-Savart Law, Ampere Law, Flux and inductance, saturtaion and hysteresis, magnetic circuits, pemanent magnets, Farady and Lenz Laws, stroring energy in a coil, transformers, electromechanic energy conversion principles, linear dc machine

Weekly Schedule

1) Importance of electric machines, classification of electric machines
2) Motor and generator definitions, power relations
3) Production of magnetic field
4) Biot-Savart Law
5) Amper Law
6) Flux and inductance
7) Saturation and hysteresis
8) Midterm exam
9) Magnetic circuits
10) Permanent magnet materials
11) Faraday and Lenz Law
12) Energy stored in a coil
13) Transformers
14) Electromechanic energy conversion principles
15) Analysis of a linear dc machine
16) Final exam

Planned Learning Activities and Teaching Methods

Assessment Methods and Criteria

Contribution of Midterm Examination to Course Grade	40%
Contribution of Final Examination to Course Grade	60%
Total	100%

Language of Instruction

Turkish

Work Placement(s)