A. locating sounds
locating sounds
The cochlear frequency map is important for understanding how the ear processes sound. It helps us perceive different pitches and frequencies by mapping them onto specific regions in the cochlea. This map is crucial for our ability to hear and distinguish between different sounds accurately.
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Auditory nerves are first relayed to the thalamus on the way to the temporal lobes auditory cortex. The thalamus is the gray matter between the cerebral hemispheres.
Sound localization in the human auditory system works through a process called binaural hearing. This involves the brain comparing the differences in sound arrival time and intensity between the two ears to determine the direction and distance of a sound source. The brain uses these cues to accurately locate the source of the sound in space.
auditory tube
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The auditory tubes, also known as the Eustachian tubes, open into the nasopharynx region of the pharynx. This connection helps equalize pressure between the middle ear and the atmosphere, which is important for maintaining proper hearing function.
To prevent accommodation in nerve stimulation, vary the frequency or amplitude of the stimulus over time. This can help to maintain the effectiveness of the stimulation and prevent the nerve from becoming desensitized. It's also important to have a proper rest period between stimulation sessions to allow the nerve to recover.
As the muscle workload increase, its threshold of stimulation increases.
No, auditory short term memory is not associated with dyslexia. Dyslexia has been associated with impairments in processing fast variations in auditory signals, which is a necessary ability for distinguishing between some phonemes (e.g. the difference between "ba" and "ga").
Bone growth stimulation cannot be used if the gap between the ends of the fracture is too large.