If the velocity of sound in air is 336 m...

If the velocity of sound in air is 336 m/s. The maximum length of a closed pipe that would produce a just audible sound will be

Text Solution

Verified by Experts

The correct Answer is:

`4.2m`

Topper's Solved these Questions

SUPERPOSITION AND STANDING WAVES
CENGAGE PHYSICS|Exercise Subjective Type|1 Videos
SUPERPOSITION AND STANDING WAVES
CENGAGE PHYSICS|Exercise Comprehension Type|5 Videos
SUPERPOSITION AND STANDING WAVES
CENGAGE PHYSICS|Exercise Single Correct Answer Type|56 Videos
SOUND WAVES AND DOPPLER EFFECT
CENGAGE PHYSICS|Exercise Integer|16 Videos
THERMODYNAMICS
CENGAGE PHYSICS|Exercise 24|1 Videos

Similar Questions

Explore conceptually related problems

The maximum length of a closed pipe that would produce a just audible sound is (V_("sound") =336 m//s) :-

If the velocity of sound in air is 320 m//s , then the maximum and minimum length of a pipe closed at one end , that would produce a just audible sound would be

The velocity of sound in air is 333 m//s . The length of an open pipe, in order to produce second overtone of frequency 999 Hz in it, will be

The velocity of sound in air is 333 m/s. the length of the an open pipe, in order to produce second overtone of frequency 999Hz in it, will be

The sequence of harmonics of a pipe open at one end and closed to the other end are 250Hz and 350Hz . If the velocity of sound in air is 340m/s, then the resonating length of the air column in its fundamental mode will be

The velocity of sound in air is 340m/s . If the density of air is increased to 4 times, the new velocity of sound will be

The maximum speed of vibrations which produce audible sound will be in:

Speed of sound in air is 330m//s .Find maximum and minimum wavelength of audible sound in air.

The velocity of sound in air is 330 m//s . Then the frequency that will resonate with an open pipe of length 1m is –

CENGAGE PHYSICS-SUPERPOSITION AND STANDING WAVES-Fill in the Blanks Type

A wave of frequency 100 Hz is sent along a string towards a fixed end....
Text Solution
|
A 1 cm long string vibrates with fundamental frequency of 256 Hz . If ...
Text Solution
|
Stationary waves are produced in 10 m long stretched string. If the st...
Text Solution
|
The velocity of waves in a string fixed at both ends is 2 m / s . The ...
Text Solution
|
A stretched string of length 1 m fixed at both ends , having a mass o...
Text Solution
|
Two identical sonometer wires have a fundamental frequency of 500 Hz w...
Text Solution
|
The linear density of a vibrating string is 10^(-4) kg//m. A transvers...
Text Solution
|
Four wires of identical lengths, diameters and materials are stretched...
Text Solution
|
The fundamental frequency of a sonometre wire is n . If its radius is ...
Text Solution
|
Two uniform strings A and B made of steel are made to vibrate under th...
Text Solution
|
If you set up the seventh harmonic on a string fixed at both ends, how...
Text Solution
|
A tube, closed at one end and containing air, produces, when excited, ...
Text Solution
|
A closed organ pipe and an open organ pipe have their first overtones ...
Text Solution
|
If the velocity of sound in air is 336 m/s. The maximum length of a cl...
Text Solution
|
An air column in a pipe, which is closed at one end, will be in resona...
Text Solution
|
A cylinderical tube open at both ends, has a fundamental frequency f i...
Text Solution
|
Two closed pipe produce 10 beats per second when emitting their fundam...
Text Solution
|
An open pipe resonates with a tuning fork of frequency 500 Hz . It is ...
Text Solution
|
In a resonance tube the first resonance with a tuning fork occurs at 1...
Text Solution
|
In the 5th overtone of an open organ pipe, these are (N-stands for nod...
Text Solution
|