An open organ pipe sounds a fundamental ...

An open organ pipe sounds a fundamental note of frequency of 230 Hz . It the speed of sound in air is `330 m//s` ., then the length of the pipe is nearly-

` 0. 25 m`

`0 . 50 m`

`0 . 75` m

`2 . 00m`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

SOUND WAVES
MOTION|Exercise Exercise - 2|41 Videos
SOUND WAVES
MOTION|Exercise Exercise - 3 (Section - A)|27 Videos
SOUND WAVES
MOTION|Exercise Questions for practice|12 Videos
SIMPLE HARONIC MOTION
MOTION|Exercise EXERCISE -4 (Leve-II) [ JEE 2011]|11 Videos
SURFACE TENSION
MOTION|Exercise Exercise - 3 | Section - B Previous Year Problems | AIEEE|12 Videos

Similar Questions

Explore conceptually related problems

An open pipe of length 33 cm resonates with frequency of 100 Hz . If the speed of sound is 330 m/s , then this frequency is

An open pipe of length 33cm resonates with frequency of 1000Hz. If the speed of sound is 330m//s , then this frequency is -

An air column enclosed in an open pipe is vibrating in its fundamental mode . The fundamental frequency is 30 Hz. If the velocity of sound air is 300 m s ^(-1) , find the length of the pipe and frequency of 3rd overtone .

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 330 m/s. find the length of air column.

An organ pipe is open at both ends. It is producing sound at its third harmonic, the frequency of which is 262 Hz. The speed of sound is 343 m/s. What is the length of the pipe?

An open organ pipe has a fundamental frequency of 300 Hz . The first overtone of a closed organ pipe has the same frequency as the first overtone of the open pipe . Find length of each pipe . The velocity of sound in air = 350 m//s .

For a certain organ pipe three successive resonance frequencies are observed at 425Hz, 595 Hz and 765Hz respectively. If the speed of sound air is 340m/s, then the length of the pipe is

An open organ pipe has a fundamental frequency of 300 HZ . The first overtone of a closed organ pipe has the same frequency as the first overtone of this open pipe . How long is each pipe ? (Speed of sound in air = 330 m//s )

A closed organ pipe can vibrate at a minimum frequency of 500 Hz. Find the length of the tube. Speed of sound in air = 340 m s^-1 .

MOTION-SOUND WAVES-Exercise - 1

f length of a closed organ pipe is 1 m and velocity of sound is 330 m/...
Text Solution
|
In the open organ pipe, the fundamental frequency is 30 vibration /sec...
Text Solution
|
An open organ pipe sounds a fundamental note of frequency of 230 Hz . ...
Text Solution
|
A tube, closed at one end and containing air, produces, when excited, ...
Text Solution
|
An organ pipe P(1) closed at one end vibrating in its first harmonic a...
Text Solution
|
An organ pipe of effective length 0.6 m is closed at one end . Given t...
Text Solution
|
An open pipe is suddenly closed at one end with the result that the fr...
Text Solution
|
The velocity of sound in air is 330 m//s . Then the frequency that wi...
Text Solution
|
An open organ pipe of length l is sounded together with another open o...
Text Solution
|
The wave produced in a resonating air column is-
Text Solution
|
In a long cylindrical tube , the water level is adjusted and the air c...
Text Solution
|
The correct formula for determination of velocity of sound be resonanc...
Text Solution
|
The approximate relation between the first and second resonance length...
Text Solution
|
The first two resonance lengths in a resonance tube formed are 16.5 cm...
Text Solution
|
A resonance tube is resonated with tuning fork of frequency 256 Hz. If...
Text Solution
|
To reduce the frequency of a tuning fork –
Text Solution
|
The number of beats produced per second is equal to the –
Text Solution
|
Beats are the result of
Text Solution
|
When a tuning fork A of frequency 100 Hz is sounded with a tuning fork...
Text Solution
|
If two tuning fork A and B are sounded together they produce 4 beats p...
Text Solution
|