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How Our Hearing Works

Our sense of hearing plays a critical role in our ability to perform daily activities. Before our ears can detect sound, acoustic energy begins in the form of sound waves traveling through the air. These sound waves strike our eardrum, which sends them into our inner ear. Inside the inner ear are nerve impulses that are then transmitted to and perceived by the brain.

Measuring Sound

Sound waves are measured in two ways: frequency and intensity.

Frequency is the number of cycles of pressure change occurring in one second and is measure in hertz (Hz). We perceive frequency as pitch. Humans can hear sound wave frequencies ranging from 20 to 20,000 Hz. When designing for the general population, expect them to detect frequencies from 1,000 to 4,000 Hz.

Intensity is determined by the amount of pressure with which a sound wave strikes the eardrum and is measured in decibels (dB). We perceive intensity as loudness. Frequency ranges from 1,000 to 8,000 Hz require the least intensity to be heard. And tones at lower frequencies must have larger intensities to be heard. As people age, their ability to hear higher frequencies is greatly reduced. By the time most people reach age 65, very few can still detect frequencies greater than 10,000 Hz.

Decibels are a logarithmic measure, not a linear one. Note that sound, power, and voltage decibels are all different, and many of those use varying reference levels. For sound pressure levels, a 20 dB difference is a 10-to-1 SPL change; a 40 dB change is a 100-fold increase. For sound pressure, the common reference level of 0 dB is about the threshold of human hearing, at 1,000 Hz.

One decibel is, conveniently, around the smallest perceptible difference to human hearing. It is also interesting that sound is perceived differently than its actual pressure values. As a rule of thumb, an increase of 10 dB in measured sound pressure is perceived to be only about twice as “loud.” A 20 dB increase sounds about four times as loud (instead of 10 times) and a 40 dB increase is perceived to be about 16 times as loud, instead of the 100 times it actually is.

Here are some typical sound pressure levels, and their perceived levels:

Event

Sound Pressure Level

Relative Perceived "Loudness"

Rustling leaves

10 dB

1/32nd

Whispered conversation

20 dB

1/16th

Quiet office interior

30 dB

1/8th

Quiet rural area

40 dB

1/4

Dishwasher in next room

50 dB

1/2

Normal conversation

60 dB

Baseline

Dial tone

70 dB

2 times

Car passing nearby

80 dB

4 times

Truck or bus passing nearby

90 dB

8 times

Passing subway train

100 dB

16 times

Loud night club

110 dB

32 times

Threshold of pain

120 dB

64 times

*Hearing damage begins to be possible at 140 dB.

Understanding how our auditory sense works can give us greater insight into designing audio alters and notifications. Be mindful of how increased age affects sound wave detection, as well as what levels of loudness are appropriate in our devices.


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Hearing & Limits (last edited 2013-04-08 20:07:48 by shoobe01)