Engineering Acoustics/Print version

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= Part 1: Lumped Acoustical Systems = =Simple Oscillation=

=Forced Oscillations(Simple Spring-Mass System)=

=Mechanical Resistance=

=Characterizing Damped Mechanical Systems=

=Electro-Mechanical Analogies=

=Methods for checking Electro-Mechanical Analogies=

=Examples of Electro-Mechanical Analogies=

=Primary variables of interest=

=Electro-acoustic analogies=

=Transducers - Loudspeaker=

=Moving Resonators=

= Part 2: One-Dimensional Wave Motion = =Transverse vibrations of strings=

=Time-Domain Solutions=

=Boundary Conditions and Forced Vibrations=

= Part 3: Applications = =Room Acoustics and Concert Halls=

=Bass Reflex Enclosure Design=

=New Acoustic Filter For Ultrasonics Media=

=Noise in Hydraulic Systems=

=Basic Acoustics of the Marimba=

=How an Acoustic Guitar works=

=Specific application-automobile muffler=

=Bessel Functions and the Kettledrum=

=Filter Design and Implementation=

=Flow-induced oscillations of a Helmholtz resonator and applications=

=Acoustics in Violins=

=Moving Coil Loudspeaker=

=Attenuation of Sound Waves=

=Car Mufflers=

=Noise from cooling fans=

=Human Vocal Fold=

=Microphone Design and Operation=

=Piezoelectric Transducers=

=Microphone Technique=

=Sealed Box Subwoofer Design=

=Acoustic Guitars=

=Basic Room Acoustic Treatments=

=Boundary Conditions and Wave Properties=

=Rotor Stator Interactions=

= License =