If two sound waves, y(1)=0.3sin596pi[t-x...

If two sound waves, `y_(1)=0.3sin596pi[t-x//330]` and `y_(2)=0.5sin640pi[t-x//330]` are superposed, what will be the `(a)` frequency of resultant wave `(b)` frequency at which the amplitude of resultant waves varies `(c )` Frequency at which beats are produced. Find also the ratio of maximum and minimum intensities of beats

Text Solution

AI Generated Solution

To solve the given problem step by step, we will address each part of the question regarding the superposition of the two sound waves. ### Given Waves: 1. \( y_1 = 0.3 \sin(596 \pi t - \frac{x}{330}) \) 2. \( y_2 = 0.5 \sin(640 \pi t - \frac{x}{330}) \) ### Step 1: Finding the Frequencies of the Individual Waves The angular frequency \( \omega \) is related to frequency \( f \) by the formula: ...

Topper's Solved these Questions

WAVES
NARAYNA|Exercise Evaluate yourself-1|12 Videos
WAVES
NARAYNA|Exercise Evaluate yourself-2|9 Videos
VECTORS
NARAYNA|Exercise LEVEL-II (H.W)|14 Videos
WORK , ENERGY & POWER
NARAYNA|Exercise EXERCISE IV|43 Videos

Similar Questions

Explore conceptually related problems

If two sound waves, y_(1) = 0.3 sin 596 pi[t - x//300] and y_(2) = 0.5 sin 604 pi [t - x//330] are superimposed, what will be the (a) frequencyof resultant wave

If two sound waves, y_(1) = 0.3 sin 596 pi[t - x//300] and y_(2) = 0.5 sin 604 pi [t - x//330] are superimposed, what will be the (b) frequencyat which beats are produced.

If two sound waves, y_(1) = 0.3 sin 596 pi[t - x//300] and y_(2) = 0.5 sin 604 pi [t - x//330] are superimposed, what will be the (c) Tlie ratio ofmaximum and minimum intensities of beats

If two sound waves y_(1) = 0.3 sin 596 pi (t - (x)/(330)) and y_(2) = 0.5 sin 604 pi (t - (x)/(330)) . The frequency at which beats are produced and the ratio of maximum and minimum intensities of beats are

Two waves of equal frequencies have their amplitudes in the ratio of 3:5. They are superimposed on each other. Calculate the ratio of maximum and minimum intensities of the resultant wave.

Two waves represented by y=a" "sin(omegat-kx) and y=a" " sin(omega-kx+(2pi)/(3)) are superposed. What will be the amplitude of the resultant wave?

Two waves of equal frequencies have their amplitude in the ratio of 5:3. They are superimposed on each other. Calculate the ratio of the maximum to minimum intensities of the resultant wave.

NARAYNA-WAVES-Exercise-IV

If two sound waves, y(1)=0.3sin596pi[t-x//330] and y(2)=0.5sin640pi[t-...
Text Solution
|
The transverse displacement y(x, t) of a wave on a string is given by ...
Text Solution
|
A travelling wave pulse is given by y=(4)/(3x^(2)+48t^(2)+24xt+2) ...
Text Solution
|
Two sinusoidal waves are superposed. Their equations are y(1)=Asin(k...
Text Solution
|
A plane progressive wave is shown in the adjoining phase diagram. The ...
Text Solution
|
Intensity of a point source of sound is 0.2 W/m^(2) at a place. If the...
Text Solution
|
the maximum pressure variation that the human ear can tolerate in loud...
Text Solution
|
A travelling wave represented by y=Asin (omegat-kx) is superimpose...
Text Solution
|
In a sonometer wire, the tension is maintained by suspending a 20kg ma...
Text Solution
|
The length of the wire shown in figure between the pulley is 1.5 m and...
Text Solution
|
A rod PQ of length 'L' is hung from two identical wires A and B. A blo...
Text Solution
|
Two wires are fixed in a sanometer. Their tension are in the ratio 8:1...
Text Solution
|
A string of mass M as a circular loop rotates abot its axis on a frict...
Text Solution
|
A stone is hung in air from a wire which is stretched over a sonometer...
Text Solution
|
A uniform rope of mass 0.1 kg and length 2.45 m hangs from a ceiling...
Text Solution
|
A string of length L is stretched by L//20 and speed transverse wave a...
Text Solution
|
Transverse waves pass through the strings A and B attached to an objec...
Text Solution
|
the fundamental frequency of a sonometer wire of length is f(0).A brid...
Text Solution
|
Two wires of radii r and 2 r are welded together end to end . The comb...
Text Solution
|
The displacement y of a particle executing periodic motion is given by...
Text Solution
|
If the two waves of the same frequency and same amplitude, on superpos...
Text Solution
|