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11279-01 - Main lecture: Elektrodynamik (4 CP)

Semester	spring semester 2024
Course frequency	Every spring sem.
Lecturers	Jelena Klinovaja (jelena.klinovaja@unibas.ch, Assessor)
Content	- Electrostatics [Coulomb’s Law, Electric Field, Maxwell Equations, Field-Behavior at Interfaces, Electrostatic Field Energy, Dipole, Dipole-Layer, Multipole Expansion, Boundary-Value Problems in Electrostatics, Classification of the Boundary Conditions, Green’s Function, Method of Image Charges, Expansion in Orthogonal Functions, Electrostatics of Dielectrics] - Magnetostatics [The Electric Current, Ohm’s Law, Thread of Current, Electric Power, Biot-Savart Law, Maxwell Equations, Vector Potential, Magnetic Moment, Magnetostatics in Matter] - Electrodynamics [Maxwell Equations, Faraday’s Law of Induction, Maxwell’s Supplement, Electromagnetic Potentials, Quasi-Stationary Fields, Mutual Induction and Self-Induction, Magnetic Field Energy, Alternating Currents (AC), Electromagnetic Waves, HomogeneousWave Equation, Plane Waves, Polarization of the Plane Waves, Wave Packets, Reflection and Refraction of Electromagnetic Waves at an Insulator, Kirchhoff’s Formula, Diffraction, Creation of Electromagnetic Waves, InhomogeneousWave Equation, Temporally Oscillating Sources, Electric Dipole Radiation]
Learning objectives	The learning objectives for a course in theoretical physics is to develop a deep understanding of the fundamental principles and mathematical formalism governing electric and magnetic fields. Some specific learning objectives: 1. Understand and derive Maxwell's equations, both in integral and differential forms. Analyze the physical meaning and significance of each equation. 2. Understanding Electromagnetic Fields: Grasp the concept of electric and magnetic fields. Explore the behavior of fields in various media, including dielectrics and magnetic materials. 3. Electrostatics and Magnetostatics: Analyze the principles of electrostatics and magnetostatics. Solve problems involving electric charges, electric potential, and magnetic fields in static situations. 4. Time-Varying Fields: Understand the concept of time-varying electromagnetic fields. Study the induction of electric and magnetic fields and Faraday's law. 5. Wave Propagation: Explore the propagation of electromagnetic waves in different media. Understand the relationship between electric and magnetic fields in propagating waves. 6. Boundary Value Problems: Solve boundary value problems related to electromagnetic fields. Apply boundary conditions to find solutions for specific scenarios. 7. Electromagnetic Radiation: Study the generation and propagation of electromagnetic radiation. Explore the concepts of antennas and radiation patterns.
Bibliography	Nolting, “Theoretical Physics 3: Electrodynamics”

Admission requirements	Physics I & II & III, Analysis I & II / Linear Algebra I & II, Function Theory and Vector Analysis, Mechanics
Course application	Course material and exercise sheets are made available to the students on Adam.
Language of instruction	English
Use of digital media	No specific media used
Course auditors welcome

Interval	Weekday	Time	Room
wöchentlich	Wednesday	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
wöchentlich	Thursday	10.15-12.00	Physik, Alter Hörsaal 2, 1.22

Dates

Date	Time	Room
Wednesday 28.02.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 29.02.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 06.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 07.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 13.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 14.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 20.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 21.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 27.03.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 28.03.2024	10.15-12.00	Ostern
Wednesday 03.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 04.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 10.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 11.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 17.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 18.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 24.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 25.04.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 01.05.2024	10.15-12.00	Tag der Arbeit
Thursday 02.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 08.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 09.05.2024	10.15-12.00	Auffahrt
Wednesday 15.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 16.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 22.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 23.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Wednesday 29.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22
Thursday 30.05.2024	10.15-12.00	Physik, Alter Hörsaal 2, 1.22

Modules	Modul: Computational Physics (Bachelor's Studies: Computational Sciences) Modul: Computational Physics (Bachelor's Studies: Computational Sciences) Modul: Computational Physics (Bachelor's Studies: Computational Sciences) Modul: Computational Physics (Bachelor's Studies: Computational Sciences) Modul: Computational Physics (Bachelor's Studies: Computational Sciences) Modul: Theoretische Physik (Master's degree subject: Physics) Module: Computational Physics (Bachelor's Studies: Computational Sciences (Start of studies before 01.08.2023)) Module: Theoretical Physics I (Bachelor's Studies: Physics)

Assessment format	main lecture exam
Assessment details	Anmeldefrist, Form, Dauer, Zeitpunkt und weitere Informationen zu den Examen werden auf http://philnat.unibas.ch/examen/ veröffentlicht.
Assessment registration/deregistration	Reg.: in 'course reg.'; dereg.: Dean of Std. Off. in writing
Repeat examination	one repetition, best attempt counts
Scale	1-6 0,5
Repeated registration	no repetition
Responsible faculty	Faculty of Science, studiendekanat-philnat@unibas.ch
Offered by	Departement Physik

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