A closed organ pipe of radius `r_(1)` and an open organ pipe of radius `r_(2)` both having same length 'L' resonate when excited with a given tunning fork. Closed organ pipe resonates in its fundamental mode where as open organ pipe resonates in its overtone , then

A closed organ pipe of radius r_(1) and an open organ pipe of radius r_(2) and having same length 'L' resonate when excited with a given tuning fork. Closed organ-pipe resonates in its fundamental mode where as open organ pipe resonates in its first overtone, then :-

When the open organ pipe resonates in its fundamental mode then at the centre of the pipe

An open organ pipe of length L vibrates in its fundamental mode. The pressure variation is maximum

A closed organ pipe and an open organ pipe of some length produce 2 beats when they are set up into vibration simultaneously in their fundamental mode . The length of the open organ pipe is now halved and of the closed organ pipe is doubled , the number of beats produced will be a) 7 b) 4 c) 8 d) 2

A closed organ pipe and an open organ pipe of same length produce 2 beats when they are set into vibrations simultaneously in their fundamental mode. The length of open organ pipe is now halved and of closed organ pipe is doubled, the number of beats produced wil be (A)8 (B)7 (C)4 (D)2

A closed organ pipe and an open organ pipe are tuned to the same fundamental frequency. The ratio of their lengths is

A closed organ pipe and an open organ pipe are tuned to the same fundamental frequency. The ratio of their lengths is

Third overtone of a closed organ pipe is in unison with fourth harmonic of an open organ pipe . Find the ratio of the lengths of the pipes.

Third overtone of a closed organ pipe is in unison with fourth harmonic of an open organ pipe. Find the ratio of lengths of the two pipes.

A closed organ pipe and an open organ pipe have their first overtones identical in frequency. Their lenghts are in the ratio