Fundamentals of Sound and VibrationFrank Fahy, David Thompson A Solid Introduction to Sound and Vibration: No Formal Background NeededThis Second Edition of Fundamentals of Sound and Vibration covers the physical, mathematical and technical foundations of sound and vibration at audio frequencies. It presents Acoustics, vibration, and the associated signal processing at a level suitable for graduate stude |
Contents
| 1 | |
Fundamentals of acoustics | 9 |
Fundamentals of vibration | 77 |
Fundamentals of signal processing | 145 |
Noise control | 213 |
Human response to sound | 311 |
Human responses to vibration | 363 |
Measurement of audiofrequency sound in air | 411 |
Vibration testing | 443 |
Back Cover | 483 |
Other editions - View all
Fundamentals of Sound and Vibration, Second Edition Frank Fahy,David Thompson No preview available - 2015 |
Common terms and phrases
A-weighting absorption coefficient acceleration accelerometer acoustic acoustic metrics amplitude antiresonance applied average bandwidth basilar membrane complex components damping decibels defined density depends direction duration dynamic effects energy engine equal-loudness contours estimate example excitation exposure Fahy fluctuations fluid force Fourier transform Frequency Hz frequency range function Griffin hand-transmitted vibration harmonic human impedance increases input ISO International Organization linear low frequencies magnitude mass mean-square measured mechanical methods microphone modal mode shapes motion sickness natural frequency noise control noise sources Organization for Standardization output particle velocity phase plate Poco propagation radiation ratio random random variable reduced resonance sample SDOF system seat Section shaker shown in Figure signal Sound and Vibration sound field sound intensity sound level meter sound power Sound Power Levels sound pressure level spectra stiffness structure surface tion transient transmission tube variable wavelength wavenumber whole-body vibration