Physics for Scientists and Engineers
Physics for Scientists and Engineers
10th Edition
ISBN: 9781337553278
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 17, Problem 6P

Two identical loudspeakers 10.0 m apart are driven by the same oscillator with a frequency of f = 21.5 Hz (Fig. P17.6) in an area where the speed of sound is 344 m/s. (a) Show that a receiver at point A records a minimum in sound intensity from the two speakers. (b) If the receiver is moved in the plane of the speakers, show that the path it should take so that the intensity remains at a minimum is along the hyperbola 9x2 − 16y2 = 144 (shown in red-brown in Fig. P17.6). (c) Can the receiver remain at a minimum and move very far away from the two sources? If so, determine the limiting form of the path it must take. If not, explain how far it can go.

Figure P17.6

Chapter 17, Problem 6P, Two identical loudspeakers 10.0 m apart are driven by the same oscillator with a frequency of f =

(a)

Expert Solution
Check Mark
To determine

To show: The receiver at point A records a minimum in sound intensity from the two speakers.

Answer to Problem 6P

Therefore, the receiver at point A records the minimum sound intensity because of destructive interference.

Explanation of Solution

Given information: The speed of the sound is 344m/s , frequency generated by the loudspeakers is 21.5Hz and the distance between two speakers is 10.0m .

The given figure of two loudspeakers is shown below.

Physics for Scientists and Engineers, Chapter 17, Problem 6P

Figure (I)

From Figure (I), the distance from the first speaker to A is 9m .

The distance from the second speaker to B is given as,

10m9m=1m

Formula to calculate the path difference for minimum intensity is,

d1d2=λ2 (I)

  • d1 is the distance from the first speaker to A .
  • d2 is the distance from the second speaker to B .

Substitute vf for λ in equation (I).

d1d2=vf2 (II)

  • λ is the wavelength of each wave.
  • v is the velocity of the sound.
  • f is the frequency generated by the loudspeakers.

Substitute 344m/s for v , 21.5Hz for f , 1m for d2 and 9m for d1 in equation (II).

9m1m=344m/s21.5Hz28m=8m

The difference between distance d1 and d2 of loudspeaker from point A is same as the half of the wavelength. Hence, this is condition for the destructive interference. So, the receiver at point A records a minimum intensity.

Conclusion:

Therefore, the receiver at point A records the minimum sound intensity because of destructive interference.

(b)

Expert Solution
Check Mark
To determine

To show: The path it should take so that the intensity remains at a minimum is along the given hyperbola equation.

Answer to Problem 6P

Therefore, the path takes by the receiver is along the hyperbola whose equation is given as, 9x216y2=144 .

Explanation of Solution

Given information: The speed of the sound is 344m/s , frequency generated by the loudspeakers is , the distance between two speakers is 10m .

Formula to calculate the wavelength of each wave is,

λ=vf

Substitute 344m/s for v and 21.5Hz for f .

λ=344m/s21.5Hz=16m

Thus, the wavelength of the each wave is 16m .

From figure (I), the coordinates for left side speaker is (5,0) and for the right side speaker is (5,0) .

Formula to calculate the path difference for minimum intensity is,

d1d2=λ2 (III)

The distance for left side speaker at point (5,0) is,

d1=(x+5)2+y2

The distance for the right side speaker at point (5,0) is,

d2=(x5)2+y2

Substitute (x+5)2+y2 for d1 and (x5)2+y2 for d2 in equation (III).

(x+5)2+y2(x+5)2+y2=λ2(x+5)2+y2=λ2+(x+5)2+y2 (IV)

Square on the both sides of the equation (IV),

((x+5)2+y2)2=(λ2+(x+5)2+y2)220xλ24=λ(x5)2+y2 (V)

Square on the both sides of the equation (V),

(20xλ24)2=(λ(x5)2+y2)2400x2+λ41610xλ=λ2((x5)2+y2) (VI)

Substitute 16m for λ in equation (VI).

400x2+(16m)41610x×16m=(16m)2((x5)2+y2)9x216y2=144

Conclusion:

Therefore, the path takes by the receiver is along the hyperbola whose equation is given as, 9x216y2=144 .

(c)

Expert Solution
Check Mark
To determine

To explain:Whether the receiver remains at a minimum and move very far away from the two sources.

Answer to Problem 6P

Therefore, the receiver remains at a minimum and move very far away from the two sources and the limiting form of the path is two straight lines through the origin with slope ±34 .

Explanation of Solution

Given information: The speed of the sound is 344m/s , frequency generated by the loudspeakers is 21.5Hz and the distance between two speakers is 10m .

The equation of the hyperbola is given as,

9x216y2=144

Rearrange the above equation for y ,

y=±34x116x2

For very large value of x ,

y=±34x

It means the receiver remains at a minimum and move very far away from the two sources and the limiting form of the path is two straight lines through the origin with slope ±34 .

Conclusion:Therefore, the receiver remains at a minimum and move very far away from the two sources and the limiting form of the path is two straight lines through the origin with slope ±34 .

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Chapter 17 Solutions

Physics for Scientists and Engineers

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