Nevşehir Hacı Bektaş Veli University Course Catalogue
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| Year/Semester of Study | 3 / Fall Semester | ||||
| Level of Course | 1st Cycle Degree Programme | ||||
| Type of Course | Optional | ||||
| Department | ELECTRICAL AND ELECTRONICS ENGINEERING | ||||
| Pre-requisities and Co-requisites | None | ||||
| Mode of Delivery | Face to Face | ||||
| Teaching Period | 14 Weeks | ||||
| Name of Lecturer | ALİ KÜRŞAD GÖRÜR (kgorur@nevsehir.edu.tr) | ||||
| Name of Lecturer(s) | |||||
| Language of Instruction | Turkish | ||||
| Work Placement(s) | None | ||||
| Objectives of the Course | |||||
| To learn the electromagnetic waves with the purpose of establishing the basis of Electrical and Electronics Engineering, to learn the behavior of smooth planar waves in space, conductance and isolation and their related relations, to learn wave guides. | |||||
| Learning Outcomes | PO | MME | |
| The students who succeeded in this course: | |||
| LO-1 | Can explain Maxwell's equations |
PO-1 Mathematics, science and engineering information to gain the practical skills. PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-8 Engineering solutions to adopt the sensitivity of the impacts that universal and social dimensions. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. |
Examination |
| LO-2 | Can define the basic relations about the waves |
PO-1 Mathematics, science and engineering information to gain the practical skills. PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-8 Engineering solutions to adopt the sensitivity of the impacts that universal and social dimensions. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. |
Examination |
| LO-3 | Can describe the reflections and refraction relations in uniform planar waves |
PO-1 Mathematics, science and engineering information to gain the practical skills. PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-8 Engineering solutions to adopt the sensitivity of the impacts that universal and social dimensions. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. |
Examination |
| LO-4 | Can explain uneven planar waves |
PO-1 Mathematics, science and engineering information to gain the practical skills. PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-8 Engineering solutions to adopt the sensitivity of the impacts that universal and social dimensions. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. |
Examination |
| LO-5 | Can desrcribe wave guides |
PO-1 Mathematics, science and engineering information to gain the practical skills. PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-8 Engineering solutions to adopt the sensitivity of the impacts that universal and social dimensions. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. |
Examination |
| PO: Programme Outcomes MME:Method of measurement & Evaluation |
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| Course Contents | ||
| Maxwell equations and extraction of wave equations. Basic concepts about waves. Phase and group velocities, 3-D wave propagation, wave propagation of vector magnitudes. Smooth planar waves propagating in the insulator and conductor in the space. Electromagnetic spectrum, characteristic impedance and number of waves. Energy density and Poynting theorem. Smooth planar waves propagating in a good conductor and plasma. Skin Effect. Düzgün düzlemsel dalgalarda yans?ma ve k?r?lmada temel yasalar. Fresnel equation and Snell's law. Reflection and pass coefficient calculations according to the change of electric field. Reflection and pass coefficient calculations according to the change of electric field. Full reflection at uneven planar waves, calculation of reflection and refraction from good conductor surface. Full reflection at uneven planar waves, reflection and refraction from good conductor surface. | ||
| Weekly Course Content | ||
| Week | Subject | Learning Activities and Teaching Methods |
| 1 | Maxwell equations and extraction of wave equations. | Lecture, question and answer, discussion |
| 2 | Basic concepts about waves. | Lecture, question and answer, discussion |
| 3 | Phase and group velocities, 3-D wave propagation, wave propagation of vector magnitudes. | Lecture, question and answer, discussion |
| 4 | Smooth planar waves propagating in the insulator and conductor in the space. | Lecture, question and answer, discussion |
| 5 | Electromagnetic spectrum, characteristic impedance and number of waves. | Lecture, question and answer, discussion |
| 6 | Energy density and Poynting theorem. | Lecture, question and answer, discussion |
| 7 | Smooth planar waves propagating in a good conductor and plasma. | Lecture, question and answer, discussion |
| 8 | mid-term exam | |
| 9 | Skin Effect. | Lecture, question and answer, discussion |
| 10 | Düzgün düzlemsel dalgalarda yansıma ve kırılmada temel yasalar. | Lecture, question and answer, discussion |
| 11 | Fresnel equation and Snell's law. | Lecture, question and answer, discussion |
| 12 | Reflection and pass coefficient calculations according to the change of electric field. | Lecture, question and answer, discussion |
| 13 | Reflection and pass coefficient calculations according to the change of electric field. | Lecture, question and answer, discussion |
| 14 | Full reflection at uneven planar waves, calculation of reflection and refraction from good conductor surface. | Lecture, question and answer, discussion |
| 15 | Full reflection at uneven planar waves, reflection and refraction from good conductor surface. | Lecture, question and answer, discussion |
| 16 | final exam | |
| Recommend Course Book / Supplementary Book/Reading | ||
| 1 | Elektromanyetik, Timur AYDEMİR, Erkan AFACAN, Cem NAKİBOĞLU, Nobel Yayın Dağıtım, Ankara, 2000. | |
| 2 | Electromagnetic Fields and Waves, Cheng, D.K. , Field and Wave Electromagnetics, Addison Wesley, 1993. | |
| 3 | The Principles of Electromagnetic Theory, Attay KOVETZ, Cambridge University Press, 1990. | |
| Required Course instruments and materials | ||
| Course book, laptop computer, projector | ||
| Assessment Methods | |||
| Type of Assessment | Week | Hours | Weight(%) |
| mid-term exam | 8 | 2 | 40 |
| Other assessment methods | |||
| 1.Oral Examination | |||
| 2.Quiz | |||
| 3.Laboratory exam | |||
| 4.Presentation | |||
| 5.Report | |||
| 6.Workshop | |||
| 7.Performance Project | |||
| 8.Term Paper | |||
| 9.Project | |||
| final exam | 16 | 2 | 60 |
| Student Work Load | |||
| Type of Work | Weekly Hours | Number of Weeks | Work Load |
| Weekly Course Hours (Theoretical+Practice) | 3 | 14 | 42 |
| Outside Class | |||
| a) Reading | 2 | 10 | 20 |
| b) Search in internet/Library | 2 | 10 | 20 |
| c) Performance Project | 2 | 10 | 20 |
| d) Prepare a workshop/Presentation/Report | 0 | ||
| e) Term paper/Project | 2 | 12 | 24 |
| Oral Examination | 0 | ||
| Quiz | 1 | 10 | 10 |
| Laboratory exam | 0 | ||
| Own study for mid-term exam | 5 | 1 | 5 |
| mid-term exam | 2 | 1 | 2 |
| Own study for final exam | 5 | 1 | 5 |
| final exam | 2 | 1 | 2 |
| 0 | |||
| 0 | |||
| Total work load; | 150 | ||