A tuning fork has a frequency of 256. Distance travelled by sound emitted during the time it makes 16 vibrations is `(v=332m//s)`

The frequency of a vibrating tuning fork is 256. Calculate the wavelength if velocity of sound is 340 ms^(-1) . Also calculate the distance travelled by a sound wave in air during the time when the fork makes 100 vibrations.

A tuning fork oscillates 350 times in second. What is the distance travelled by the sound wave emitted by the tuning fork after its 5 oscillation. The speed of sound in air is 350 m/s

The frequency of a fork is 500Hz . Velocity of sound in air is 350ms^(-1) . The distance through which sound travel by the time the fork makes 125 vibrations is

The frequency of a tuning fork is 150 Hz and distance travelled by the sound, produced in air is 20 cm in one vibration. Calculate the speed of sound in air.

The frequency of a tuning fork is 150 Hz and distance travelled by the sound, produced in air is 20 cm in one vibration. Calculate the speed of sound in air.

A tuning fork vibrates with a frequency of 256. If the speed of sound is 345.6 ms^(-1) ., Find the wavelength and the distance, which the sound travels during the time, the fork makes 60 vibrations.

A tuning fork vibrates with a frequency of 256. If the speed of sound is 345.6 ms^(-1) ., Find the wavelength and the distance, which the sound travels during the time, the fork makes 60 vibrations.

The velocity of sound in hydrogen is 1270 m*s^(-1) "at" 0^(@) C and the frequency of a fork is 335 Hz . Find the distance travelled by sound in hydrogen at 0^(@) C and 30^(@) C in the time in which the fork completes 71 vibrations .

The frequency of a tuning fork is 256Hz . The velocity of sound in air is 344ms^(-1) .The distance travelled (in metres) by the sound during the time in which the tuning fork completes 32 vibrations