On producing the waves of frequency 1000...

On producing the waves of frequency 1000 Hz in a kundt's tube the total distance between 6 successive nodes n 85 cm. Speed of sound in the gas filled in the tude is

A

`330 m//s`

B

`340 m//s`

C

`350 m//s`

D

`300 m//s`

Text Solution

Verified by Experts

The correct Answer is:

B

Topper's Solved these Questions

WAVES AND SOUND
ERRORLESS |Exercise Doppler s Effect|65 Videos
WAVES AND SOUND
ERRORLESS |Exercise Musical Sound|32 Videos
WAVES AND SOUND
ERRORLESS |Exercise Vibration of string|52 Videos
VECTORS
ERRORLESS |Exercise Exercise|223 Videos
WORK , ENERGY , POWER AND COLLISION
ERRORLESS |Exercise Self Evaluation Test|19 Videos

Similar Questions

Explore conceptually related problems

On producing the waves of frequency 100 Hz in a kundt's tube the total distance between 6 successive nodes n 85 cm. Speed of sound in the gas filled in the tude is

Waves of frequency 1000 Hz are produced in a Kundt's tube . The total distance between 6 successive nodes is 82.5 cm . The speed of sound in the gas filled in the tube is

two waves of frequency 250 Hz and 255 Hz are produced simultaneously. the time travel between successive Maxima is

When two sound waves of frequencies 60 Hz and 62 Hz are produced simultaneously, then the time interval between successive intensity maxima is

Two waves of frequency 500 Hz and 498 Hz are produced simultaneously. Calculate the time interval between successive maxima.

Velocity of sound in air 300m/s. If the distance between the two successive nodes of a stationary wave of frequency 1000 Hz will be

An open pipe resonates with a tuning fork of frequency 500 Hz . It is observed that two successive notes are formed at distance 16 and 46 cm from the open end. The speed of sound in air in the pipe is

If a sound wave of frequency 500 Hz and velocity 350 m/s. Then the distance between the two particles of a phase difference of 60^(@) will be nearly

ERRORLESS -WAVES AND SOUND-Organ pipe

Standing stationary waves can be obtained in an air column even if the...
Text Solution
|
The stationary wavey = 2a sin kx cos omega t in a closed organ pipe is...
Text Solution
|
Stationary waves are setup in an air column. Velocity of sound in air ...
Text Solution
|
An open pipe of length l vibrates in fundamental mode. The pressure va...
Text Solution
|
Fundamental frequency of pipe is 100 Hz and other two frequencies are ...
Text Solution
|
Fundamental frequency of an open pipe of length 0.5 m is equal to the ...
Text Solution
|
In a closed organ pipe the frequency of fundamental note is 50 Hz . Th...
Text Solution
|
On producing the waves of frequency 1000 Hz in a kundt's tube the tota...
Text Solution
|
What is the base frequency if a pipe gives notes of frequencies 425, 2...
Text Solution
|
A student determines the velocity of sound with the help of a closed o...
Text Solution
|
An open pipe of length 33 cm resonates with frequency of 100 Hz . If t...
Text Solution
|
In a resonance tube the first resonance with a tuning fork occurs at 1...
Text Solution
|
Two closed organ pipes of length 100 cm and 101 cm 16 beats is 20 sec....
Text Solution
|
In open organ pipe, if fundamental frequency is n then the other frequ...
Text Solution
|
If in an experiment for determination of velocity of sound by resonanc...
Text Solution
|
An organ pipe, open from both end produces 5 beats per second when vib...
Text Solution
|
In one metre long open pipe what is the harmonic of resonance obtained...
Text Solution
|
An organ pipe open at one end is vibrating in first overtone and is in...
Text Solution
|
In a resonance pipe the first and second resonance are obtained at dep...
Text Solution
|
An open tube is in resonance with string (frequency of vibration of tu...
Text Solution
|