Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved - Caution
L L Koss
4 points
* 22 lecture hours plus tutorial and
laboratory classes
* First semester
* Clayton
* Prerequisites:
MAT2910
Objectives To develop competence in planning and designing to avoid noise problems, in identifying and solving noise problems and in using acoustical measuring and analysing equipment.
Synopsis Fundamentals of sound and sound propagation, wave equation, Helmholtz equation, absorption, impedance and intensity, silencers. Transmission from one medium to another, applications and optimisation. Transmission through walls, mass law, coincidence and resonance. Sound transmission in the atmosphere, inverse square law, excess attenuation. Radiation of sound, directivity. Sound in enclosed spaces - reverberation, absorption, rooms for speech and music. Noise sources, noise reduction techniques, noise legislation and regulation, acceptable noise levels, hearing conservation, measurement and analysis of noise, design for low noise.
Assessment Examinations: 80%
* Tutorials: 15%
*
Laboratory: 5%
Prescribed texts
Bies D A and Hansen C H Engineering noise control 2nd edn, Unwin Hyman, 1995
Recommended texts
Irwin J D and Graf E E Industrial noise and vibration control
Prentice-Hall
Kinsler L and others Fundamentals of acoustics 3rd edn, Wiley
Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved -
Caution