A timing fork of frequency 340 Hz completes 100 vibrations, in air. What isthe distance covered by the sound wave, [v = 332 `m//s`]

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 source of sound has frequency 2000 Hz. If the speed of sound in air 340m//s , find the distance covered by sound when the source completes 400 vibrations.

A tuning fork of frequency 340Hz is vibrated above a cylindrical hallow tube closed at one end. Thew height of the tube is 120 cm. Water is slowly poured in it. What is the maximum height of water required for resonance ?

A tuning fork has frequency 512 Hz. The number of vibrations of the fork in the time during which the sound from the tuning fork reaches 332 m in air are (velocity of sound in air is 332 m//s .)

Solve the following example: A source of sound has frequency 1000Hz. If the speed of sound in air under certain conditions is 340 m/s, find the distance covered by sound when the source completes 100 vibrations.

A tuning fork of frequency 340 Hz is vibrated just above the tube of 120 cm height. Water is poured slowly in the tube. What is the minimum height of water necessary for the resonance? (speed of sound in the air = 340m/s)

A tuning fork of frequency 170 Hz produces sound wave of wavelength 2m. Calculate speed of sound.

A vibrating string of certain length l under a tension T resonates with a mode corresponding to the first overtone (third harmonic) of an air column of length 75cm inside a tube closed at one end. The string also generates 4 beats per second when excited along with a tuning fork of frequency n . Now when the tension of the string is slightly increased the number of beats reduces 2 per second. Assuming the velocity of sound in air to be 340 m//s , the frequency n of the tuning fork in Hz is

A sound wave of frequency 8000Hz travels with a speed of 340 m//s in air. Find its wavelength.