Acoustics

Données Générales
Programme Académique	General Engineering Program			Responsable(s) Module : MARCHESSE Yann
Type d'EC : Cours	Acoustics (LIIAem08EAcoust)
TD : 4h00 Cours : 16h00 Travail personnel : 15h00 Durée totale: 35h00	Status	Periode Academic Semester	Langue d'enseignement : French

Objectifs Généraux
On completion of the course, the student is expected to be able to do the following: 1. Name the basic knowledge of sound wave propagation ; 2. Identify the acoustic sound levels and handle these sound levels ; 3. Modeling the generation of waves by simple sources (acoustic monopole and dipole); 4. Determine the effects of containment on sound wave propagation (acoustic cavity, tubes, waveguides, etc.); 5. Identify suitable means for acoustic measurement.

Objectifs Généraux

On completion of the course, the student is expected to be able to do the following:

1. Name the basic knowledge of sound wave propagation ;
2. Identify the acoustic sound levels and handle these sound levels ;
3. Modeling the generation of waves by simple sources (acoustic monopole and dipole);
4. Determine the effects of containment on sound wave propagation (acoustic cavity, tubes, waveguides, etc.);
5. Identify suitable means for acoustic measurement.

Contenu
- Acoustic waves (linear acoustic equations, propagation equations, acoustic intensity and power, plane and spherical waves), - Sound levels ; - Elementary acoustic sources (monopole and dipole) and extended acoustic sources; - Cavities and waveguides, tubes, resonators and filters, ; - Acoustic metrology (sound levels, acoustic spectra, microphones, laboratory and in-situ measurements, measurements of intensity and acoustic power).

Contenu

- Acoustic waves (linear acoustic equations, propagation equations, acoustic intensity and power, plane and spherical waves),
- Sound levels ;
- Elementary acoustic sources (monopole and dipole) and extended acoustic sources;
- Cavities and waveguides, tubes, resonators and filters, ;
- Acoustic metrology (sound levels, acoustic spectra, microphones, laboratory and in-situ measurements, measurements of intensity and acoustic power).

Prérequis
Pre-requisites : fluid mechanics

Bibliographie
Recommended ressources: - K. Laurence, Fundamentals of acoustics, John Wiley and Sons Ltd, 4th édition ; - S. Lewy, Acoustique industrielle et aéroacoustique, Hermès edition ; - Y. Marchesse, course handout.

Évaluation(s)
N°	Nature	Coefficient	Objectifs
1	To assess the ability to use the theoretical knowledge learned in class in a simple concrete context (1 to 5)	1	The written exam consists of a series of questions on the course followed by several exercises proposing a simple acoustic configuration to study.
2		1	Continuous Assessment