A plate was cut from a quartz crystal and is used to control the frequency of an oscillating electrical circuit. Longitudinal standing waves are set up in the plate with displacement antinodes at opposite faces. The fundamental frequency of vibration is given by the equation `f_(0) = (2.87 xx 10^(4))/(s)` .Here s is thickness of the plate and density of quartz is `2658.76 kg//m^(3)`
Young’s modulus of elasticity for quartz is –

A plate was cut from a quartz crystal and is used to control the frequency of an oscillating electrical circuit. Longitudinal standing waves are set up in the plate with displacement antinodes at opposite faces. The fundamental frequency of vibration is given by the equation f_(0) = (2.87 xx 10^(4))/(s) .Here s is thickness of the plate and density of quartz is 2658.76 kg//m^(3) If the quartz plate is vibrating in 3rd harmonic while measuring the frequency of 1.2 xx 10^(6) Hz, then the thickness of the plateis

If the speed of a transverse wave on a stretched string of length 1 m is 60 m s^-1 , what is the fundamental frequency of vibration ?

A metallic rod of length 1 m, young's modulus 3xx10^(11)Nm^(-3) and density is clamped at its middle. Longitudinal stationary vibrations are produced in the rod with the total number of displacement nodes equal to 3. The frequency of vibrations is

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A piezoelectric quartz plate of thickness 5mm is vibrating is resonance. Calculate its fundamental frequency if for quartz. Y=8xx10^(10)N//m^(2) and rho=2.65xx10^(3)kg//m^(3) .

Ultrasonic waves produced by a vibrating quartz crystal are

The speed of sound in a liquid of density 2 xx 10^(3) kg//m^(3) is 1000 m/s. Determine the bulk modulus of elasticity of the liquid.

The time period of a vibrating body is 0.04s. then the frequency of the wave is_________