An open pipe is suddenly closed at one e...

An open pipe is suddenly closed at one end with the result that the frequency of third harmonic of the closed pipe is found to be higher by `100 Hz` then the fundamental frequency of the open pipe. The fundamental frequency of the open pipe is

Topper's Solved these Questions

Waves
SL ARORA|Exercise EXERCISE|558 Videos
WAVE MOTION
SL ARORA|Exercise All Questions|271 Videos
Work, Energy and power
SL ARORA|Exercise EXERCISE|415 Videos

Similar Questions

Explore conceptually related problems

An open pipe of length L is emitting its fundamental frequency . If one end of the pipe is closed , then the frequency of the first overtone of the closed pipe is found to be higher by 100 Hz than the fundamental frequency of the open pipe. What is the fundamental frequency of the closed pipe ?

If an open pipe is suddenly closed with the result that the second overtone of the closed pipe is found to be higher in frequency by 100 Hz than the first overtone of the original pipe, then the fundamental frequency of open pipe will be

On closing one end of an open pipe, the frequency of fifth harmonic of closed pipe becomes larger by 200 Hz than the fundamental frequency of open pipe. Calcuate the fundamental frequency of open pipe.

An open organ pipe is closed suddenly with the result that the second overtone of the closed pipe is found to be higher in frequency by 100 than the first overtone of the original pipe. Then, the fundamental frequency of the open pipe is

An open pipe when closed at one end can resonate in its third harmonic with a frequency which is 100Hz more than its fundamental frequency as an open pipe.If the fundamental frequency of the pipe when it is open at both ends is 50nHz then the value of n is

How is the fundamental frequency of an open pipe related to the fundamental frequency of a closed pipe of half the length?

SL ARORA-Waves-EXERCISE

An open pipe is suddenly closed at one end with the result that the fr...
Text Solution
|
A radio station broadcasts its programme at 219.3 metre wavelength. De...
Text Solution
|
The audible range of a human ear is 20 Hz to 20 kHz. Convert this into...
Text Solution
|
The speed of a wave in a mediium is 960ms^(-1). If 3600 waves are pass...
Text Solution
|
If the splash is hear 4.23 seconds after a stone is dropped into a wel...
Text Solution
|
A stone is dropped into a well and its splash is heard at the mouth of...
Text Solution
|
A body sends waves 100mm long through medium A and 0.25m long in mediu...
Text Solution
|
A steel wire 70cm long has a mass of 7.0g. If the wire is under a tens...
Text Solution
|
The speed of a transverse wave in a stretched string is 348 ms^(-1), w...
Text Solution
|
Calculate the velocity of transverse wave in a copper wire 1 mm^(2) in...
Text Solution
|
A wave pulse is travelling on a string of linear mass density 1.0 g cm...
Text Solution
|
The diameter of an iron wire is 1.20 mm. If the speed of transverse wa...
Text Solution
|
The speed of sound in a liquid is 1500 ms^(-1).The density of the liqu...
Text Solution
|
The longitudinal waves starting from a ship return from the bottom of...
Text Solution
|
At 10^5 Nm^(-2) atmospheric pressure the density of air is 1.29 kg m^(...
Text Solution
|
At normal temperature and pressur, 4g of He occupies a volume of 22.4 ...
Text Solution
|
Find the temperature at which the velocity of sound in air will be 1 1...
Text Solution
|
The velocity of sound in air is 332 ms^(-1) at 0^@ C .At what temperat...
Text Solution
|
The ratio of the velocity of sound in Hydrogen gas (gamma=7/5) to that...
Text Solution
|
An observer sets his watch by the sound of a signal fired from a tower...
Text Solution
|
A sound wave propagating in air has a frequency of 4000Hz. Calculate t...
Text Solution
|