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 .

A 50 cm long pipe, open at both ends, produces resonant vibration with a tuning fork. If the velocity of sound in air is 350 m*s^(-1) , what is the frequency of the tuning fork ?

If the length of an organ pipe closed at one end is 1 m and velocity of sound is 330 m//s , then frequency for the second note is_______.

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 ?

A wire of length 25 cm and mass 2 . 5 g is stretched with a fixed tension. The length of a pipe closed at one end is 40 cm . During vibrations, the first overtone of the wire produces 8 beats per second with the fundamental emitted by the pipe . The number of beats reduces with the decrease in tension in the wire. If the velocity of sound in air is 320 m*s^(-1) , find the tension in the wire.

Would the frequencies of the tones emitted from a closed or an open pipe change if the temperature of the air column in the pipe increases ?

The length of an organ pipe closed at one end is 90 cm . Find out the frequency of the harmonic next to the fundamental . Velocity of sound in air = 300 m* s^(-1) .

Find out the relation between fundamental frequencies of a closed and an open pipe?

A whistle whose air column is open at both ends has a fundamental of 5100 Hz . If the speed of sound in air is 340m* s^(-1) , the length of the whistle in cm, is