Calculate the frequency of the fundamental note of 0.35m long open and closed pipes? Velocity of sound is `340ms^(-1)`.

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

The fundamental frequency of an open organi pipe is 330 Hz. The first overtone of a closed organ pipe has the same frequency as the first overtone of the open pipe. How long is each pipe 2 Velocity of sound =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 fifth harmonic of a closed organ pipe of length 50cm, if the velocity of sound in air is 330 m/s.

An open pipe is 85 cm long. If the velocity of sound is 340 ms^(-1) , find the frequency of the fundamental note of the pipe. What would be the length of a closed pipe which produces a fundamental note of the same frequency?

A closed organ pipe of length l = 100 cm is cut into two unequal pieces. The fundamental frequency of the new closed organ pipe place is found to be same as the frequency of first overtone of the open organ pipe place. Datermine the length of the two piece and the fundamental tone of the open pipe piece. Take velocity of sound = 320 m//s .

An open organ pipe produces a note of frequency 512 Hz at 15^@C. Calculate the length of the pipe. Velocity of sound at 0^@C" is 335 ms"^(-1).

A car sounding a horn producing a note of 500 Hz., approaches and then passes a stationary observer at a steady speed of 15ms^(-1)? . Calculate the change in pitch of the note heard by the observer. (Velocity of sound = 340 ms^(-1)) .

A pipe of length 1.5 m closed at one end is filled with a gas and it resonates at 30^(@)C in its fundamental with a tuning fork. Another pipe of the same length but open at both ends and filled with air and it resonates in its fundamental with the same tuning fork. Calculate the velocity of sound at 0^(@)C in the gas, given that the velocity of sound in air is 360 m s^(-1) at 30^(@) .

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.