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Hearing might be something that many people take for granted, but it possesses a certain irony in that it becomes more noticeable as it is lost. Due to industrial developments and advanced sound production technology, hearing loss is more of an issue nowadays than it may once have been. Audiometers are essential in measuring and preventing hearing damage.
People are exposed to excessively loud noises on a daily basis, either at work or in other environments. Think of the interior of a noisy factory or the thumping beat of a nightclub. Over time, exposure to such loud noises can cause hearing loss. In order to prevent such loss, it is important to be able to measure a person's hearing sensitivity, and this is what audio measuring devices are used to do.
Audiometers all operate according to the same principle. The device produces a carefully controlled sound which is routed into the ears of the person being tested. The volume and frequency of the this sound are deliberately determined by the device, and the sound then becomes the yardstick by which the sensitivity of the person's hearing is measured. The volume of the sound is measured in decibels (dB) and the frequency (pitch) in Hertz (Hz). The louder a sound, the higher its decibel count, while frequency is an indication of pitch (high or low sounds).
The test's aim is to provide a numerical or mathematical diagnostic picture of the person's hearing situation. Usually, an audiometer will consist of earphones wired to a machine or a PC. As soon as the tester has determined the sensitivity of the person's hearing, a treatment plan or further course of action can be mapped out.
However, the audiometer needs to be set up so that it produces the exact sounds required by the test. This setting up or modification is known as calibration, much as a car's odometer is calibrated to reflect distance accurately. An audiometer needs to be re-calibrated regularly to remain reliable.
There are several ways in which an audiometer gets put out of tune, such as incorrect handling of the equipment, an environmental temperature which is too high or too low, the equipment's age, and excessive use. Like a musical instrument, an audiometer is a sensitive piece of equipment. In order to operate with acceptable accuracy at all times, an audiometer should be re-calibrated every year.
There are basically two kinds of audiometer: the hardware and the software type. The hardware type consists of a device wired to a pair of earphones. The software type, on the other hand, is based on a computer program. Both have the same function. The key difference between the two is that software-based audiometers never need re-calibration because they are digitally programmed. They can also achieve a deeper level of accuracy because they are computerized. However, they are more tricky to deploy because of idiosyncratic factors unique to each PC and user.
In modern times, the level of noise in the everyday environment of the public is higher than it used to be. Audiometers have an important function in keeping this noise in check. They represent a key tool in the fight against hearing loss and aural damage.
People are exposed to excessively loud noises on a daily basis, either at work or in other environments. Think of the interior of a noisy factory or the thumping beat of a nightclub. Over time, exposure to such loud noises can cause hearing loss. In order to prevent such loss, it is important to be able to measure a person's hearing sensitivity, and this is what audio measuring devices are used to do.
Audiometers all operate according to the same principle. The device produces a carefully controlled sound which is routed into the ears of the person being tested. The volume and frequency of the this sound are deliberately determined by the device, and the sound then becomes the yardstick by which the sensitivity of the person's hearing is measured. The volume of the sound is measured in decibels (dB) and the frequency (pitch) in Hertz (Hz). The louder a sound, the higher its decibel count, while frequency is an indication of pitch (high or low sounds).
The test's aim is to provide a numerical or mathematical diagnostic picture of the person's hearing situation. Usually, an audiometer will consist of earphones wired to a machine or a PC. As soon as the tester has determined the sensitivity of the person's hearing, a treatment plan or further course of action can be mapped out.
However, the audiometer needs to be set up so that it produces the exact sounds required by the test. This setting up or modification is known as calibration, much as a car's odometer is calibrated to reflect distance accurately. An audiometer needs to be re-calibrated regularly to remain reliable.
There are several ways in which an audiometer gets put out of tune, such as incorrect handling of the equipment, an environmental temperature which is too high or too low, the equipment's age, and excessive use. Like a musical instrument, an audiometer is a sensitive piece of equipment. In order to operate with acceptable accuracy at all times, an audiometer should be re-calibrated every year.
There are basically two kinds of audiometer: the hardware and the software type. The hardware type consists of a device wired to a pair of earphones. The software type, on the other hand, is based on a computer program. Both have the same function. The key difference between the two is that software-based audiometers never need re-calibration because they are digitally programmed. They can also achieve a deeper level of accuracy because they are computerized. However, they are more tricky to deploy because of idiosyncratic factors unique to each PC and user.
In modern times, the level of noise in the everyday environment of the public is higher than it used to be. Audiometers have an important function in keeping this noise in check. They represent a key tool in the fight against hearing loss and aural damage.
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