5 credits
30.0 h + 30.0 h
Q1
Teacher(s)
Charlier Jean-Christophe; Lherbier Aurélien (compensates Charlier Jean-Christophe); Louveaux Jérôme; Oestges Claude coordinator;
Language
French
Prerequisites
The prerequisite(s) for this Teaching Unit (Unité d’enseignement – UE) for the programmes/courses that offer this Teaching Unit are specified at the end of this sheet.
Main themes
The course deals with wave physics, with a special emphasis on electromagnetic waves. It starts by writing Maxwell's equations, followed by a derivation of the wave equation from Maxwell's equations or from classical mechanics, and discusses its general solutions. The characteristics of simple waves are presented (frequency, wavelength, Doppler effect, polarisation,...). The behaviour of waves at the interface between two systems is then studied (Snell's and Fresnel's equations). Interference phenomena, including diffraction, are presented for local point and extended sources. Standing waves are then considered, as well as wave packets. The generation of electromagnetic waves is finally discussed (antennas and oscillating dipoles).
Aims
At the end of this learning unit, the student is able to : | |
1 | Contribution of the course to the program objectives:
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The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.
Content
Waves
1.1. Displacement current' integrated approach of electromagnetism
1.2. Maxwell's equations and the wave equation
1.3. Solutions to the wave equation; mechanical waves
1.4. Polarization; reflection et refraction
1.5. Interferences
1.6. Diffraction
1.7. Standing waves and wave packets
1.8. Electromagnetic radiation and antennas
1.1. Displacement current' integrated approach of electromagnetism
1.2. Maxwell's equations and the wave equation
1.3. Solutions to the wave equation; mechanical waves
1.4. Polarization; reflection et refraction
1.5. Interferences
1.6. Diffraction
1.7. Standing waves and wave packets
1.8. Electromagnetic radiation and antennas
Teaching methods
Lectures (CM).
Learning based on exercises (APE), problems (APP) or laboratory (LABO) work by groups of students.
Learning based on exercises (APE), problems (APP) or laboratory (LABO) work by groups of students.
Evaluation methods
Written exam at the end of the quadrimester; a mid-quadrimester interrogation is also organized; a public presentation by the students of their group work (APP or LABO) is also organized at the start of some lectures.
The students are provided for the exam (and the interrogation) with a reference formula sheet available for download on the course website.
The students are provided for the exam (and the interrogation) with a reference formula sheet available for download on the course website.
Online resources
Bibliography
Les transparents présentés au cours, les énoncés et les solutions des exercices et laboratoires, et des animations pédagogiques sont disponibles sur le site du cours. Ouvrage de référence : une édition récente de H. D. Young et R. A. Freedman, University Physics with Modern Physics, Addison Wesley: San Francisco. |
Faculty or entity
BTCI