## Physical acoustics: principles and methods |

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### Contents

Bepresentation of Oscillations and Waves | 55 |

SmallAmplitude Waves in Isotropic Linear Elastic Solids | 72 |

SmallAmplitude Waves in a Linear Viscoelastic Medium | 87 |

Copyright | |

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### Common terms and phrases

Acoust amplitude antiresonance applications approximately attenuation axis band-pass filter bandwidth barium titanate boundary conditions characteristic impedance coefficients coil components coupling factor curve cylinder delay characteristic delay line determined dielectric direction discussed displacement domain effects elastic wave electric field element energy equivalent circuit ferroelectric filter flexural modes frequency equation frequency range function given group velocity Hence high-frequency impedance input length linear liquid longitudinal mode longitudinal waves loss magnetostrictive Mason material McSkimin measured mechanical medium Meitzler method modes of propagation modulus obtained oscillator parallel particle displacement phase velocity Phys piezoelectric ceramics piezomagnetic plane plate Poisson's ratio propagation constant quartz radiation ratio reactance reflected resonance frequency Section shear waves shown in Fig signal solutions specimen strain stress strip surface symmetry temperature tensor thickness torsional mode transducer ultrasonic values vector vibrations wave motion wave propagation wave velocity wavelength wire zero