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L6 and L7 Sound Intensity, Sound Level/Loudness (Decibels), The Ear

L6 and L7 Sound Intensity, Sound Level/Loudness (Decibels), The Ear. 5.1.9. You and I are standing next to each other, listening to the exact same steady sound. Our ears are identical. You listen for TWICE as long as I do. How does the total energy received compare?

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L6 and L7 Sound Intensity, Sound Level/Loudness (Decibels), The Ear

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  1. L6 and L7Sound Intensity, Sound Level/Loudness (Decibels), The Ear

  2. 5.1.9 You and I are standing next to each other, listening to the exact same steady sound. Our ears are identical. You listen for TWICE as long as I do How does the total energy received compare? You receive twice what I do You receive half what I do Youreceive the same as I do. How does the (average) power compare? (Please average ONLY over the time that the individual is listening!)

  3. BANG! 5.2.2 A lawnmower runs for 10 minutes. Over that time, a total of 1 J of sound energy is released. How does the power of the lawnmower sound compare to that of the firework sound? A) Greater than B) Less than C) Equal to D) ?? BANG! The sound wave from a firecracker carries 1 J of energy (total!). If the sound burst lasts .2 seconds, what is the power of this sound wave? 1 W .2 W 5 W 2 W ??

  4. Let’s now consider wave propagation in 2 (or 3) dimensions.

  5. We define the Sound Intensity Ias the Audio Power crossing a unit area,or I= P/AUnits- W/m2

  6. 5.3.1

  7. Area of a sphere is 4π r2

  8. R r 5.3.1 There is a source in the center emitting sound outward. How does intensity of the sound at r compare to that at R? I(at r) > IR I(at r) < IR I(at r) = IR Not enough information

  9. 5.3.2 If R=2r, what is IR/Ir? 1 2 4 .5 .25

  10. 1 cm 1 cm 5.3.1 R r How does the total power (Energy/second) passing through the whole spherical surface at r compare to that at R? Pr>PR Pr<PR C) Pr=PR D) ?? How does the power passing through a patch of 1 cm2 at radius r compare to that at R?

  11. 12-2 Intensity of Sound: Decibels An increase in sound level of 3 dB, which is a doubling in intensity, is a very small change in loudness. In open areas, the intensity of sound diminishes with distance: However, in enclosed spaces this is complicated by reflections, and if sound travels through air the higher frequencies get preferentially absorbed.

  12. LogarithmsIf y = 10x , we define x as the log of y, or x=log y

  13. Some useful facts:log (ab)=log a + log blog a/b = log a – log b

  14. 12-2 Intensity of Sound: Decibels The loudness of a sound is much more closely related to the logarithm of the intensity. Sound level is measured in decibels (dB) and is defined: (12-1) I0 is taken to be the threshold of hearing:

  15. 12-2 Intensity of Sound: Decibels The intensity of a wave is the energy transported per unit time across a unit area. The human ear can detect sounds with an intensity as low as 10-12 W/m2 and as high as 1 W/m2. Perceived loudness, however, is not proportional to the intensity.

  16. One can solve problems involving the sound level,SL (in dB) using the defining equation above. We will give simple problems in which one can solve problems using the following: If I/Io =10, log 10=1 and SL = 10dB. If I/Io =100, log 100=2, and SL = 20dB. If I/Io =1000, log 1000 =3, and SL = 30 dB, Etc. So we note that we ADD 10dB to the SL for each 10-FOLD increase of intensity. This doubling in “loudness” is, to a good approximation, similar to the response of the ear to 10 –fold increases in sound intensity at a fixed frequency.

  17. Over Pressure (N/m2) Over Pressure (N/m2) Time (s) Time (s) II. I. 5.1.3 Looking at the following two graphs what can you say about the loudness of the two sounds? I is louder than II. You cant tell which is louder. II is louder than I

  18. Suppose R, (I/I0) =10000. How many decibels is this? • 0.5 • 40 • 50 • 0.4 • 400

  19. Suppose sound A has an intensity of 7 W/m2, and sound B has an intensity of 0.07 W/m2. What is the ratio of A to B expressed in dB? • 100 • 20 • -10 • -20 • none of these

  20. Suppose sound A has an intensity of 7 W/m2, and sound B has an intensity of 0.07 W/m2. Are these sounds loud or soft? • Loud • Soft • I don’t know

  21. 5.2.3 There are two instruments, a trumpet and a flute. The trumpet produces a sound with10x more intensity than that of the flute. The decibel level for the trumpet is…compared to the flute. 10 dB greater 10 dB less 1 dB greater 1 dB less Not enough information

  22. HINT:SL2=10logI2/I0SL1=10logI1/I0SL2-SL1=10(logI2-logI0-(logI1-logI0))So SL2-SL1=10logI2/I1

  23. 5.2.3b There are two instruments, a trumpet and a flute. The trumpet produces a sound with100x more intensity than that of the flute. The sound intensity of the trumpet is…compared to the flute. 2 dB greater 10 dB greater 20 dB greater 100 dB greater Other/Not enough information/???

  24. 5.2.5 If a sound is 0 dB, does that mean that no energy is transferred? Yes No ??

  25. 5.2.6 At a concert, the trumpet section is playing 30 dB louder than the French horn section. The trumpet section is playing with … of the French horn section. 3x the intensity 10x the intensity 30x the intensity 1000x the intensity 1030x the intensity

  26. CT 100 dB corresponds to what intensity, in W/m2? A) 10-12 W/m2 B) 10-10 W/m2 C) 10-2 W/m2 D) 10+10 W/m2 E) None of these/???

  27. 12-3 The Ear and Its Response; Loudness

  28. Structure of the ear

  29. 12-3 The Ear and its Response; Loudness The ear’s sensitivity varies with frequency. These curves translate the intensity into sound level at different frequencies.

  30. True or false: the auditory nerve carries information to the brain from the middle ear?a) trueb)false

  31. The ear is more sensitive to sounds of 0 phons ata)100 Hzb)1000 Hzc) 10,000 Hzd) sounds of 0 phons cannot heard at any frequency

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