The first harmonic emitted from a closed pipe `p_(1) ` and the third harmonic emitted from an open pipe `p_(2)` produce resonance with a tuning fork. What is the ratio of lengths of ` p_(1) and p_(2)` ?

The first overtone emitted from a closed organ pipe produces resonance with the third overtone emitted from an open organ pipe. What is the ratio of lengths of the two organ pipes ?

The ratio of frequency of the second harmonic emitted from an open organ pipe to the frequency of the third harmonic emitted from a similar pipe is 1 : 2 . What is the ratio of lengths of the two pipes ?

The frequency of the first overtone of a closed pipe of length l_(1) is equal to that of the first overtone of an open pipe of length l_(2) . The ratio of their lengths (l_(1):l_(2) is

The fundamental frequency of a closed pipe is equal to the frequency of the second harmonic of an open pipe. The ratio of their lengths is

The second harmonic emitted by a sonometer wire is in unison with the third harmonic emitted by another sonometer wire of half the length. If the mass per unit length of the two wires is the same , what is the ratio of their tension ?

The third overtone of a closed organ pipe is found to be in unison with the first overtone of an open pipe . Find the ratio of the lengths of the pipes .

Fundamental tone is emitted from a pipe closed at one end. If the closed end is suddenly opened,