The air column in a pipe closed at one e...

The air column in a pipe closed at one end is made to vibrate in its second overtone by a tuning fork of frequency `440 Hz`. The speed of sound in air is `330ms^(-1)`. End corrections may be neglected. Let `P_(0)` denote the mean pressure at any point in the pipe, and `DeltaP` the maximum amplitude of pressure variation.
(a) What the length `L` of the air column.
(b) What is the amplitude of pressure variation at the middle of the column?
( c ) What are the maximum and minimum pressures at the open end of the pipe?
(d) What are the maximum and minimum pressures at the closed end of the pipe?

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The correct Answer is:

A, B, C, D

(a) Frequency of second overtone of the closed pipe
= `5 ((upsilon)/(4L)) = 440 H_(Z)` (Given)
`:. L = (5 upsilon) /( 4xx 440) m`
Substituting
`upsilon` = speed of sound in air = `330 m//s`
`L= (5xx330) /(4xx440) = (15)/(16) m`
(b) `lambda = (4L)/ (5) = (4(15//16))/(5) = (3)/(4) m`
Open end is displacement antinode. Therefore, it would be a pressure node
or at `x=0` , `Delta p = 0`
`X = 0: Delta p = 0`

Pressure amplitude at `x = x` can be written as
`Delta p = +- Delta p sin kx`
Where, `k = (2pi)/(lambda) = (2 pi)/(3//4)= (8 pi) /(3) m ^(-1)`
Therefore, pressure amplitude at `x = (L)/(2) = (15// 16)/(2)m` or `(15//32) m` will be
`Delta p = +-Delta p _(o) sin ((8pi)/(3)) ((15)/(32)) = +- Delta p_(o) sin ((5 pi)/(4))`
`Delta p = +- (Delta P_(o))/sqrt(2)`
(c) Open end is a pressure node, i.e. `Delta p = 0`
Hence, `p_(max) = p_(o) + Delta p _(o)`
and `p_(min) = p_(o) - Delta p _(o)`

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