Velocity of sound in air is `320 m s^(–1)`. A pipe closed at one end has a length of 1 m. Neglecting end correction, the air column in the pipe cannot resonate with sound of frequency

The velocity of sound in air is 340ms^(-1) . A pipe closed at one end has a length of 170 cm. neglecting the end correction, the frquencies at which the pipe can resonate are

velocity of sound in air is 320m//s . A pipe closed at one end has of 1m . Negative end corrections, the air column in air pipe can resonate for sound of frequency :

Speed of sound in air is 320 m//s . A pipe closed at one end has a length of 1 m and there is another pipe open at both ends having a length of 1.6 m . Neglecting end corrections, both the air columns in the pipes can resonate for sound of frequency

A narrow pipe of length 2m is closed at one end. The velocity of sound in air is 320 m/s. Neglecting end corrections , the air column in the pipe will resonate for sound of frequencies :

Velocity of sound in air is 320 m/s. For an organ pipe closed at one end of length 2 m the resonating frequency may be

A pipe of lengh 1m is closed at one end. The velocity sound in air is 300m//s . The air column in the pipe will not resonate for sound of frequency

A pipe 1 m length is closed at one end. Taking the speed of sound in air as 320ms ^(-1) .the air column in the pipe cannot resonate for the frequency (in Hz )

A string of length 50 cm and mass 12.5 g is fixed at both ends. A pipe closed at one end has a length 85 cm . When the string vibrates in its second overtone and the air column in the pipe in its first. Overtone, they produce a beats frquency of 6 Hz . It is also observed that decreasing teh tension in the string decreaes beats frequency. Neglect the end correction in the pipe and velocity of sound in air is 340 m//s . then the tension in the string is