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 fork vibrates with a frequency of 256. If speed of sound in air is 332m//s , the distance which the sound travels when fork completes 5 vibrations is …………………………. .

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 vibrates with 2 beats in 0.04 second. The frequency of the fork is

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

A tuning fork makes 256 vibrations per second in air. When the speed of sound is 330 m//s , the wavelength of the note emitted is :

A tuning fork makes 256 vibrations per second in air. When the speed of sound is 330 m//s , the wavelength of the note emitted is :

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

When a tuning fork of frequency 400 Hz completes 20 vibrations the distance covered by sound is 17.2 m. find the wavelength and velocity of sound waves.

A tuning fork makes 256 vibrations per second in air. When velocity of sound is 330 m//s , then wavelength of the tone emitted is

A tuning fork in air vibrates at 30 Hz with 5 cm amplitude. If the velocity of sound in air is 330 ms^-1 , derive the expression for the generated travelling wave.