Calculate the fundamental frequency of a closed organ pipe of length 66.4 cm at `0^(@)C`, if the velocity of sound at `0^(@)C` is 332m/s.

What is the fundamental frequency of an open organ pipe of length 42.5 cm, if the velocity of sound in air is 340 m/s?

Calculate the frequency of fifth harmonic of a closed organ pipe of length 50cm, if the velocity of sound in air is 330 m/s.

Calculate the frequency of fifth harmonic of a closed organ pipe of length 50cm, if the velocity of sound in air is 330 m/s.

Calculate the frequency of 2^(nd) harmonic in an open organ pipe of length 34 cm if the velocity of sound is 340m/s.

What is the fundamental frequency of a closed pipe of length 25 cm filled with carbon dioxide. Velocity of sound in CO_2 is 266 ms^(-1).

What will be the wavelength and pitch of the note emitted by a closed organ pipe 32.4 cm long at 0^@C if the velocity of sound in air at 0^@C is 332 ms^(-1) .

The first overtone of an open organ pipe beats with the first overtone of a closed organ pipe with a beat frequency 2.2 Hz . The fundamental frequency of the closed organ pipe is 110 Hz , find the lengths of the pipes . Take velocity of sound = 330 m//s .

An open organ pipe of length 11 cm in its fundamental mode vibrates in resonance with the first overtone of a closed organ pipe of length 13.2 cm filled with some gas . If the velocity of sound in air is 330 m//s , calculate the velocity of sound in the unknown gas .

The fundamental frequency of a closed organ pipe of length 20 cm is equal to the second overtone of an organ pipe open at both the ends. The length of organ pipe open at both the ends is

Calculate the increase velocity of sound for 1^@C rise of temperature if the velocity of sound at 0^@C is 332(m)/(s) .