An open organ pipe of length 1m contains a gas whose density is twice the density of atmosphere at STP. Find the difference between fundamental and second harmonic frequencies if speed of sound in atmosphere is 300 m/s.

An open organ pipe of length 1m contains a gas whose density is twice the density of the atmosphere at STP. Find the difference between its fundamental and second harmonic frequencies if the speed of sound in atmosphere is 300m/s.

In an organ pipe of length L open at both ends, the fundamental mode has a frequency (where v is a speed of sound in air)

In an organ pipe of length L open at both ends, the fundamental mode has a frequency (where v is a speed of sound in air)

Distinguish between harmonics and overtones. Find the fundamental and second overtone frequencies of a pipe open at both ends of length 25cm if the speed of sound in air is 330 m//s .

Find the fundamental, first overtone and second overtone frequencies of an open organ pipe of length 20 cm. Speed of sound in air is 340 m s^-1 .

Find the fundamental, first overtone and second overtone frequencies of an open organ pipe of length 20 cm. Speed of sound in air is 340 m s^-1 .

In an open end organ pipe of length l if the speed of sound is V then the fundamental frequency will be

An open organ pipe of length is 50 cm, if the velocity of sound in air is 320m/s , then the frequency of its fundamental note will be