Ders Adı Kodu Yarıyıl T+U Saat Kredi AKTS
Advaced Electromagnetıc Theory FIZ 504 0 3 + 0 3 6
Ön Koşul Dersleri
Önerilen Seçmeli Dersler
Dersin Dili Türkçe
Dersin Seviyesi YUKSEK_LISANS
Dersin Türü Zorunlu
Dersin Koordinatörü Dr.Öğr.Üyesi NAGİHAN DELİBAŞ
Dersi Verenler Prof.Dr. ALİ ÇORUH, Dr.Öğr.Üyesi NAGİHAN DELİBAŞ,
Dersin Yardımcıları
Dersin Kategorisi Diğer
Dersin Amacı Understanding electrostatic theory and practising to problems.
Dersin İçeriği Electrostatic and boundary value problems at electrostatic, Multipoles, Electrostatic in macroscopic media, dielectrics, Magnetostatic, Field changing with time, Maxwell Equations.
# Ders Öğrenme Çıktıları Öğretim Yöntemleri Ölçme Yöntemleri
1 Identifies concept of electric field in conductors and insulators and proposes solutions to problems. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
2 Applies Gauss law of electrostatic to charged objects. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
3 Interprets electrostatic potential and potential energy of charged objects. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
4 Knows solutions of electrostatic boundary value problems and compares the methods. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
5 Analyses 2-dimensional potential problem. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
6 Investigates solution of Laplace equation at spherical coordinates. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
7 Analyses and solves Green functions at cylindirical coordinates. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
8 Exemplifies electrostatic and multipole expansion. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
9 Finds a solution boundary value problems at dielectric media. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
10 Analyses Lorentz force and Biot-Savart law at magnetic media. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
11 Exemplifies Maxwell equations. Lecture, Question-Answer, Discussion, Drilland Practice, Self Study, Problem Solving, Testing, Homework, Performance Task,
Hafta Ders Konuları Ön Hazırlık
1 Introduction to Electrostatic: Gauss law, superfical charge and bipolar distributions, Poisson and Laplace equations, Gren Theory.
2 Uniqueness solution with drichlet or Neumann boundary conditions, solving electrostatic boundary value problems with Gren function.
3 Electrostatic potantial energy and anergy densiy.
4 Boundary value problems in electrostatic, Screen Charge Theory, periodical charge against a conductor sphere, conductor sphere at regular electric field with Screen Charges Method.
5 Semisphere are keep at apart potantial perpendicular function and expansions two dimensional potantial problem, summation of Fourier serial.
6 Laplace equation in spherical coordinates, Legendre equation,
7 Boundary value in cylindrical coordinates, solving potantial problems with Green functions expansion in cylindrical coordinates.
8 Multipole expansion, Electrostatic in material media, boundary value problems with dielectric.
9 Midterm exam
10 Molecular polarizability, Electrical susceptibility, Electrostatic energy in dielectric media.
11 Biot-Savart law, Amper law, Vector potential magnetic fields of a settled current distribution.
12 Magnetic moment, Macroscobic equations, regular magnetized sphere , magnetic screening spherical shell from pervious matter in a regular field.
13 Fields changing with time, Faraday’s induction law, Maxwell’s substitution current.
14 Maxwell equations, Gauge transformations, Poynting Theory, Conservation laws for macroscobic medium, Magnetic monopole problem.
Kaynaklar
Ders Notu
Ders Kaynakları
Sıra Program Çıktıları Katkı Düzeyi
1 2 3 4 5
1 Using the knowledge of undergraduate and graduate education in postgraduate level. X
2 To be able to improve themselves by following the innovations in the field of Physics which are important in the development of science and technology. X
3 To be able to make literature search, presentation, experimental setup preparation, application and explication of results. X
4 To be able to join interdisciplinary and multidisciplinary team works.
5 Sharing their concepts in seminar, symposium, conference etc. by using the skills of self-study.
6 Having the scientific and vocational wafer and defending this apprehension in every medium.
Değerlendirme Sistemi
Yarıyıl Çalışmaları Katkı Oranı
1. Ara Sınav 70
1. Kısa Sınav 15
2. Kısa Sınav 15
Toplam 100
1. Yıl İçinin Başarıya 50
1. Final 50
Toplam 100
AKTS - İş Yükü Etkinlik Sayı Süre (Saat) Toplam İş Yükü (Saat)
Course Duration (Including the exam week: 16x Total course hours) 16 3 48
Hours for off-the-classroom study (Pre-study, practice) 16 3 48
Mid-terms 1 5 5
Final examination 1 10 10
Quiz 2 20 40
Toplam İş Yükü 151
Toplam İş Yükü / 25 (Saat) 6,04
Dersin AKTS Kredisi 6