Three sound waves of equal amplitudes ha...

Three sound waves of equal amplitudes have frequencies (n-1) ,n (n+1) .They superimpose to give beats.The number of beats produced per second will be

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

WAVES
AAKASH INSTITUTE|Exercise ASSIGNMENT ( SECTION-D ( Assertion - Reason Type Questions ))|12 Videos
WAVES
AAKASH INSTITUTE|Exercise ASSIGNMENT ( SECTION-B ( Objective type Questions ))|42 Videos
WAVE OPTICS
AAKASH INSTITUTE|Exercise Assignment (Section-J (Aakash Challengers question))|1 Videos
WORK, ENERGY AND POWER
AAKASH INSTITUTE|Exercise Assignment (SECTION - D)|15 Videos

Similar Questions

Explore conceptually related problems

Three sound waves of equal amplitudes have frequencies (v - 1), v, (v + 1) . They superpose to give beats. The number of beats produced per second will be :

The number of beats produced per second is equal to the –

There are two sources of sound of equal intensity with frequencies 400Hz and 408Hz are vibrated together. The number of beats heard per second is

If two waves of frequencies n_(1) = 200 Hz and n_(2) = 205 Hz are superimposed, then the value of beat frequency will be

There are three sources of sound of equal intensity with frequencies 400, 401 and 402 vib/sec . The number of beats heard per second is

Three sound waves of frequencies 320, 344 and 280 are produced simultaneously. Find the number of beats per second, assuming the human ear's resolution is 10 beats per second.

Two adjacent piano keys are struck simultaneously. The notes emitted by them have frequencies n_(1) and n_(2) . The number of beats heard per second is

When two tuning fork are sounded together produce x beats/s. The fequency of A is n_(A) . The fork B is loaded with little wax then x-1 number of beats per second are produced, then the frequency of fork B before loading will be

AAKASH INSTITUTE-WAVES-ASSIGNMENT ( SECTION-C ( Previous year Questions ))

The two nearest harmonics of a tube closed at one end and open at othe...
Text Solution
|
The second overtone of an open organ pipe has the same frequency as th...
Text Solution
|
Three sound waves of equal amplitudes have frequencies (n-1) ,n (n+1) ...
Text Solution
|
A siren emitting a sound of frequency 800 Hz moves away from an observ...
Text Solution
|
An air column, closed at one end and open at the other resonates with ...
Text Solution
|
A uniform rope of legnth L and mass m1 hangs vertically from a rigid s...
Text Solution
|
A string is stretched between fixed points separated by 75.0cm. It is ...
Text Solution
|
The fundamental frequency of a closed organ pipe of length 20 cm is eq...
Text Solution
|
If n1,n2 and n3 are the fundamental frequencies of three segments into...
Text Solution
|
The number of possible natural oscillations of air column in a pipe cl...
Text Solution
|
A speed ign motorcyclist sees traffic ham ahead of him. He slows doen ...
Text Solution
|
If we study the vibration of a pipe open at both ends, then the follow...
Text Solution
|
A source of unknown frequency gives 4 beats//s, when sounded with a so...
Text Solution
|
A wave travelling in the +ve x-direction having displacement along y-d...
Text Solution
|
Two sources of sound placed closed to each other, are emitting progres...
Text Solution
|
When a string is divided into three segments of length l1,l2 and l3 th...
Text Solution
|
The equation of a simple harmonic wave is given by y = 3 sin"(pi)/(2)...
Text Solution
|
A train moving at a speed of 220ms^-1 towards a stationary object emit...
Text Solution
|
Two waves are represented by the equations y(1)=a sin (omega t+kx+0....
Text Solution
|
Sounds waves travel at 350m//s through a warm air and at 3500m//s thro...
Text Solution
|