In closed pipes, the positions of antino...

In closed pipes, the positions of antinodes are obtained at –

`(lambda)/(4),(3lambda)/(4),(5lambda)/(4)`

`0,(lambda)/(2),lambda`

`lambda, 2 lambda, 3 lambda`

`2 lambda, 4 lambda, 6 lambda`

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MOTION-SOUND WAVES-Exercise - 1

In open pipes, the positions of antinodes are obtained at
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Modes of vibration in an open organ pipe are represented by –
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In closed pipes, the positions of antinodes are obtained at –
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Modes of vibration in a closed organ pipe are represented by –
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The first overtone of a closed pipe is given by –
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The frequency of an open organ pipe is n. If one of its ends is closed...
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In an open organ pipe, if the fundamental frequency is n, the overtone...
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An open pipe of length 33cm resonates with frequency of 1000Hz. If the...
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The velocity of sound in air is 333 m//s . The length of an open pipe,...
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The length of an open pipe is 48 cm and its fundamental frequency is 3...
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The ratio of the lengths of two closed pipes is 31// 30 . Their fundam...
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The length of an open pipe is 0.5m and the velocity of sound in air is...
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Velocity of sound in air is 332 m//sec . The shortest length of an ope...
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In an organ pipe of length L open at both ends, the fundamental mode h...
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For an open organ pipe of length l the wavelength of the fundamental n...
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A cylindrical tube, open at the both ends, has a fundamental frequency...
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An air column in a pipe which is closed at one end will be in resonanc...
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f length of a closed organ pipe is 1 m and velocity of sound is 330 m/...
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In the open organ pipe, the fundamental frequency is 30 vibration /sec...
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An open organ pipe sounds a fundamental note of frequency of 230 Hz . ...
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