354925 An organ pipe \(P_{1}\), closed at one end vibrating in its fundamental harmonic and another pipe \(P_{2}\), open at both ends vibrating in its third harmonic, are in resonance with a given tuning fork. The ratio of the lengths of \(P_{1}\) and \(P_{2}\) is:

354926 The two nearest harmonics of a tube closed at one end and open at other end are \(220\,Hz\) and \(260\,Hz\). What is the fundamental frequency of the system?

354927 If in an experiment for determination of velocity of sound by resonance tube method using a tuning fork of \(500\;Hz,\) first resonance was observed at \(30.52\;cm\) and second was obtained at \(64.13\;cm,\) then maximum possible error in velocity of sound is
(Take actual speed of sound \( = 332\;m/s\)

354928 In the case of closed end organ pipe

354925 An organ pipe \(P_{1}\), closed at one end vibrating in its fundamental harmonic and another pipe \(P_{2}\), open at both ends vibrating in its third harmonic, are in resonance with a given tuning fork. The ratio of the lengths of \(P_{1}\) and \(P_{2}\) is:

354926 The two nearest harmonics of a tube closed at one end and open at other end are \(220\,Hz\) and \(260\,Hz\). What is the fundamental frequency of the system?

354927 If in an experiment for determination of velocity of sound by resonance tube method using a tuning fork of \(500\;Hz,\) first resonance was observed at \(30.52\;cm\) and second was obtained at \(64.13\;cm,\) then maximum possible error in velocity of sound is
(Take actual speed of sound \( = 332\;m/s\)

354928 In the case of closed end organ pipe

354925 An organ pipe \(P_{1}\), closed at one end vibrating in its fundamental harmonic and another pipe \(P_{2}\), open at both ends vibrating in its third harmonic, are in resonance with a given tuning fork. The ratio of the lengths of \(P_{1}\) and \(P_{2}\) is:

354926 The two nearest harmonics of a tube closed at one end and open at other end are \(220\,Hz\) and \(260\,Hz\). What is the fundamental frequency of the system?

354927 If in an experiment for determination of velocity of sound by resonance tube method using a tuning fork of \(500\;Hz,\) first resonance was observed at \(30.52\;cm\) and second was obtained at \(64.13\;cm,\) then maximum possible error in velocity of sound is
(Take actual speed of sound \( = 332\;m/s\)

354928 In the case of closed end organ pipe

354925 An organ pipe \(P_{1}\), closed at one end vibrating in its fundamental harmonic and another pipe \(P_{2}\), open at both ends vibrating in its third harmonic, are in resonance with a given tuning fork. The ratio of the lengths of \(P_{1}\) and \(P_{2}\) is:

354926 The two nearest harmonics of a tube closed at one end and open at other end are \(220\,Hz\) and \(260\,Hz\). What is the fundamental frequency of the system?

354927 If in an experiment for determination of velocity of sound by resonance tube method using a tuning fork of \(500\;Hz,\) first resonance was observed at \(30.52\;cm\) and second was obtained at \(64.13\;cm,\) then maximum possible error in velocity of sound is
(Take actual speed of sound \( = 332\;m/s\)

354928 In the case of closed end organ pipe