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S1 & S2 are sources of the sound of frequency 656 Hz. S1 is moving along OP and S2 is moving on the circle in an anticlockwise direction with a constant speed of 4√2 m\s. P is a detector that is fixed. Select the correct options (Vsound=300m\s)
S1 & S2 are sources of the sound of frequency 656 Hz. S1 is moving along OP and S2 is moving on the circle in an anticlockwise direction with a constant speed of 4√2 m\s. P is a detector that is fixed. Select the correct options (Vsound=300m\s)
Updated On: Aug 17, 2023
- When S2 is at Q, Then frequency it detected by the detector is approximately 647 Hz.
- When S2 is at Q, Then frequency it detected by the detector is 327 Hz.
- When S2 is at R and S1 is coming toward P with a velocity of 4m/s, Then the beat frequency it detected by the detector is 8.86 Hz.
- When S2 is at R and S1 is coming toward P with a velocity of 4m/s, Then the beat frequency it detected by the detector is 2.56 Hz.
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The Correct Option is A, C
Solution and Explanation
The correct options are (A) and (C).
\(f'=\frac{656\times300}{304}\)
\(f'=647.36\,Hz\)
Hence, Option (A) is correct.
From S2 , \(f'=656\,[\frac{300}{300+4\sqrt2\,cos\,90}]\)
\(f'=656\)
From S1, \(f''=656\,[\frac{300}{300-4}]\)
\(f''=664.86\)
Beat frequency = \(f''-f'\) = \(664.86-656\) = 8.86 Hz
br>Hence, Option (C) is also correct.
\(f'=\frac{656\times300}{304}\)
\(f'=647.36\,Hz\)
Hence, Option (A) is correct.
From S2 , \(f'=656\,[\frac{300}{300+4\sqrt2\,cos\,90}]\)
\(f'=656\)
From S1, \(f''=656\,[\frac{300}{300-4}]\)
\(f''=664.86\)
Beat frequency = \(f''-f'\) = \(664.86-656\) = 8.86 Hz
br>Hence, Option (C) is also correct.
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