A tube open at both ends has fundamental frequency 'n'. If one end of the tube is dipped in water to half of its length , what would be the fundamental frequency ?

A pipe open at both ends has a fundamental frequency f in air. The pipe is dippoed vertically in water so that half of it is in water. The fundamental frequency of the air column is now :-

An open organ pipe produces its fundamdental frequency f. When the pipe is dipped in water so that (2)/(5) of its length is under water, then its fundamental frequency becomes

A pipe open at both ends gives frequencies which are

A pipe closed at one end produces a fundamental note of frequency 412 Hz . If it is cut into two pieces of equal lengths, then the fundamental frequencies produced by the two pieces would be

In open organ pipe, if fundamental frequency is n then the other frequencies are

Show that the fundamental frequency of vibrations of the air column in a tube open at both is equal to double the fundamental frequency in a tube of the same length and closed at one end.

A tube closed at one end containing air produces fundamental note of frequency 512 Hz. If the tube is opened at both the ends, the fundamental note will be:

A tube, closed at one end and containing air, produces, when excited, the fundamental note of frequency 512 Hz . If the tube is open at both ands the fundamental frequency that can be excited is (in Hz)

A pipe open at both the ends has a fundamental frequency of 600 Hz . The first overtone of a pipe closed at one end has the same frequency as the first overtone of the open pipe. How long are the two pipes ?

An open pipe of certain length produces fundamental frequency 500 Hz. A closed pipe of some other length produces fundamental frequency 450 Hz. When the two are joined to form a longer close tube, its fundamental frequency will be