A tube 1.0 m long is closed at one end. ...

A tube `1.0 m` long is closed at one end. A stretched wire is placed near the open end. The wire is `0.3 m` long and a mass of `0.01 kg` . It is held fixed at both ends and vibrates in its fundamental mode. It sets the air column in the tube into vibration at its fundamental frequency by resonance. Find
(a) the frequency of oscillation of the air column and
(b) the tension in the wire.
Speed of sound in air = `330 m//s` .

Text Solution

Verified by Experts

The correct Answer is:

`737.4 N`

for the wire, `v = sqrt((T)/(m//l))`
fundamental frequency `= (v)/(2l) = sqrt((Tl)/(m)).(1)/(2l) = (1)/(2)sqrt((T)/(ml))`
for the closed pipe, frequency of
`1st` overtone `= (v_(sound))/(4l_(tube)) xx 3`
since the two frequencies are equal
`(v_(sound) xx 3)/(4l_(tube)) = (1)/(2) sqrt((T)/(ml))`
`(330 xx 3)/(4 xx 1) = (1)/(2) sqrt((T)/(10^(-2) xx 0.3)) rArr T = ((330 xx 3)/(4))^(2) xx 2^(2) xx 0.3 xx 10^(-2) = 734.4 N`

Topper's Solved these Questions

SOUND WAVES
RESONANCE|Exercise Exercise- 3 PART - II|1 Videos
SOUND WAVES
RESONANCE|Exercise Exercise- 2 PART - IV|8 Videos
SIMPLE HARMONIC MOTION
RESONANCE|Exercise Exercise|28 Videos
STRING WAVES
RESONANCE|Exercise Exercise|32 Videos

Similar Questions

Explore conceptually related problems

A 30.0-cm-long wire having a mass of 10.0 g is fixed at the two ends and is vibrated in its fundamental mode.A 50.0-cm-long closed organ pipe, placed with its open end near the wire, is set up into resonance in its fundamental mode by the vibrating wire. Find the tension in the wire. Speed of sound in air = 340 m s^-1 .

A steel piano wire 0.5 m long has a total mass of 0.01 kg and is stretched with a tension of 800 N. The frequency, when it vibrates in its fundamental mode, is

A steel wire 0.5 m long has a total mass of 0.02 kg and is stretched with a tension of 800N . The frequency when it vibrates in its fundamental mode is

A wire of length 40 cm which has a mass of 4 g oscillates in its second harmonic and sets the air column in the tube to vibrations in its funrations in its fundamental mode as shows in figure. Assuming the speed of sound in air as 340 m//s . Find the tension in the wire.

Consider the situation shown in figure. The wire which has a mass of 4.00 g oscillates in its second harmonic and sets the air column in the tube into vibrations in its fundamental mode. Assuming that the speed of sound in air is 40 m s^-1 , find the tension in the wire. .

In fundamental mode, the time required for the sound wave to reach upto the closed end of a pipe filled with air is 0.01 s . The frequency of vibration of air column is

Find the fundamental frequency and the frequency of the third overtone of a pipe 45 cm long. If the pipe is open at both ends (use V=344m//s )

A tube 1.0 m long is closed at one end. A wire of length 0.3 m and mass 1 xx 10^(-2) kg is streched between two fixed ends and is placed near the open end. When the wire is plucked at its mid point the air column resonates in its 1st overtone. Find the tension in the wire if it vibrates in its fundamental mode. [V_(" sound ")= 330 m"/"s] .

To decrease the fundamental frequency of a stretched string fixed at both ends one might

RESONANCE-SOUND WAVES-Exercise- 3 PART - I

When 1 m long metallic wire is stressed, an extension of 0.02 m is pro...
Text Solution
|
At certain instant the shape of a simple train of ple wave is y = 12si...
Text Solution
|
Two observer A and B carry identical sound sources of frequency 256 Hz...
Text Solution
|
Two transverse sine waves, each of amplitudes 4mm wavelength 2m and ti...
Text Solution
|
Consider the superposition of N harmonic waves of equal amplitude and ...
Text Solution
|
A radio station broadcasting at a frequency of 1500 kHz gerertes a dir...
Text Solution
|
Two organ pipes are identical except that one is filled with oxygen an...
Text Solution
|
A military band was marching on a street in the same direction as the ...
Text Solution
|
(i) A person hums in a wall and finds strong resonance at frequencies ...
Text Solution
|
A tube 1.0 m long is closed at one end. A stretched wire is placed nea...
Text Solution
|
The first overtone of an open orgen pipe beats with the first ouertone...
Text Solution
|
A band playing music at a frequency f is moving towards a wall at a sp...
Text Solution
|
A 3 m long organ pipe open at both ends is driven to third harmonic st...
Text Solution
|
The air column in a pipe closed at one end is made to vibrate in its s...
Text Solution
|
A source of sonic oscillations with frequency v(0)=1700Hz and a receiv...
Text Solution
|
A man standing in front of a mountain beats a drum at regular interval...
Text Solution
|
A source is moving across a circle given by the equation x^(2) + y^(2)...
Text Solution
|
A SONAR system fixed in a submarine operates at a frequency 40.0kHz. A...
Text Solution
|
A road passes at some distance from a standing man. A truck is coming ...
Text Solution
|
At t = 0, a source of sonic oscillations S and on observer O start mov...
Text Solution
|