Calculate the amplitude of vibrations of air particles when a wavee of intensity `10^(-3) "watt"//m^(2)` is produced by a tuning fork of frequency 540 Hz. Velocity of sound in air `= 340 m s^(-1)` and density of air `= 1.3 kg m^(-3)`

How far does the sound travel in air when a tuning fork of frequency 256 Hz makes 64 vibrations ? Velocity of sound in air = 320 ms^-1

Distance travelled by the sound produced by a tuning fork of frequency 50 Hz completing 200 vibrations is, (the velocity of sound in air is 330 m/s)

What is minimum length of a tube, open at both ends, that resonates with tuning fork of frequency 350 Hz ? [velocity of sound in air = 350 m/s ]

Calcuate the least mass of air that will resonate with a tuning fork of frequency 340 Hz in a closed tube of diameter 4 cm at 30^(@)C . (Velocity of sound in air at 30^(@) = 350 ms^(-1) and density of air at 30^(@)C = 1.3 kg per cubie metre). Neglect end -correction .

Calculate the distance that sound travels in air when a tuning fork of frequency 250 Hz makes 44 vibrations. Take, velocity of sound in air = 320 m/s.

How far does the sound travel in air, when a tuning fork of frequency 256 Hz makes 32 vibrations? Velocity of sound in air =320m//s .

The air column in a pipe closed at one end is made to vibrate in its second overtone by a tuning fork of frequency 440 Hz. The speed of sound in air is 330 m/s. find the length of air column.

Find the amplitude of the vibration of the particles of air through which a sound wave of intensity 2.0xx10^-6Wm^-2 and frequency 1.0kHz is passing. Density of air =1.2 kgm^-3 and speed of sound in air =330 ms^-1 .

Length of 0.3 m wire vibrates in fundamental mode at frequency 480 Hz. The velocity of sound wave in air is

With what velocity should you approach tuning fork of frequency 256 Hz so that the apparent frequency is 512 Hz. Velocity of sound in air is 340 m/s