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BASIC VIBRATION THEORY
MECHANICAL IMPEDANCE AND MOBILITY 101
VIBRATION OF A RESILIENTLY SUPPORTED RIGID BODY
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acceleration accelerometer amplitude analysis angle applied approximately auxiliary mass system axes axis beam calibration center-of-gravity Chap characteristics coefficient coil components computed constant coordinates critical damping damper defined deflection determined differential equation direction displacement effect eigenvalue eigenvectors elastic electrical energy equation of motion equivalent example excitation factor filter forced vibration Fourier free vibration frequency range function gage given harmonic impedance input linear load magnitude matrix maximum measured mechanical mechanical impedance method mode mounting natural frequency nonlinear obtained oscillation output parameters peak pendulum pickup piezoelectric plane power spectral density products of inertia pulse quency random vibration ratio relative resilient element resilient supporting resonant frequency result rigid body rotation rotor sensitivity shaft shock and vibration shown in Fig signal sinusoidal solution spectral density speed spring stiffness strain strain gages structure time-history tion torsional transducer undamped velocity viscous voltage whirl zero