Velocity of sound in air is 330 m/s and frequency of a tuning fork is 660 Hz. What will be the distance covered by the sound is 200 complete vibrations of the fork ?

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 length of a pipe, open at one end is 30 cm . If the velocity of sound in air is 330 m*s^(-1) , find out the fundamental frequency and the frequencies of the first two overtones formed due to vibration of the air column in the pipe .

Velocity of sound in air at 0 ^(@)C is 330 m/s . What will be the velcity o sound in air at 10 ^(@) C ?

The frequency of a tuning fork is 400 Hz. and the velocity of sound is 320 m//s . What distance will the wave travel if the tuning for k completes 30 full cycle?

If the frequency of a sound wave is 250 Hz and wavelenth is 1.32 m, then what is the velocity of the wave

A sound wave of frequency 660 Hz is incident normally on a reflector. What is the distance of the nearest particle vibrating with the maximum amplitude, from the reflector ? Velocity of sound = 330 m * s^(-1) .