In the 5th overtone of an open organ pip...

In the `5th` overtone of an open organ pipe, these are (N-stands for nodes and A- for antinodes)

Text Solution

Verified by Experts

The correct Answer is:

`4,5`

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

In the third normal mode of vibrationn of a closed organ pipe, the number of nodes and antinodes respectively are

If the fundamental frequency of a closed of pipe is equal to the first overtone of an open organ pipe then the ratio of lengths of closed organ pipe to open organ pipe is

First overtone frequency of a closed organ pipe is equal to the first overtone frequency of an open organ pipe. Further nth harmonic of closed organ pipe is also equal to the nth harmonic of open pipe, where n and m are

The frequency of the first overtone of a closed organ pipe is same as that of first overtone of an open organ pipe. What is the ration of their lengths?

The second overtone of an open organ pipe has the same frequency as the first overtone of a closed pipe L metre long. The length of the open pipe will be

An open organ pipe has fundamental frequency 300Hz.The first overtone of the open organ pipe is the same as the first overtone of a closed organ pipe. The length of the closed organ pipe is (v_(sound)=330m/s) (A) 10cm (B) 41cm (C) 82cm (D) 164cm

The 4^(th) overtone of an open organ pipe resonates with the first overtone of semi-open organ pipe. The ration of the length of the open pipe to the semi-open pipe is

Fifth overtone of a closed pipe is found to be in in unison with the third overtone of an open organ pipe. Find ratio of length of open organ pipe to that of closed organ pipe .

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
|