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How does the auditory nerve transmit information to the brain?

How does the auditory nerve transmit information to the brain?

Auditory processing begins in the cochlea of the inner ear, where sounds are detected by sensory hair cells and then transmitted to the central nervous system by spiral ganglion neurons, which faithfully preserve the frequency, intensity, and timing of each stimulus.

Which auditory nerve transmits impulses to the brain?

Coming from the inner ear and running to the brain is the eighth cranial nerve, the auditory nerve. This nerve carries both balance and hearing information to the brain. Along with the eighth cranial nerve runs the seventh cranial nerve.

Which part of the ear sends sound to the brain?

The cochlea is filled with a fluid that moves in response to the vibrations from the oval window. As the fluid moves, 25,000 nerve endings are set into motion. These nerve endings transform the vibrations into electrical impulses that then travel along the eighth cranial nerve (auditory nerve) to the brain.

What carries messages from the ear to the brain?

The cochlear nerve, also known as the acoustic nerve, is the sensory nerve that transfers auditory information from the cochlea (auditory area of the inner ear) to the brain.

How does the auditory system work?

When a sound wave is sent through the external auditory canal, it vibrates the eardrum. The eardrum then sends the vibrations through the ossicles through the “handle” of the malleus. The malleus then strikes the incus, which moves the stapes. The stapes sends the vibrations to the inner ear through the oval window.

How does the ear send messages to the brain?

Our hearing system has many working parts. The outer ear collects the sounds which vibrate the eardrum in the middle ear. The inner ear gets these vibrations and sends them to the auditory nerve. These impulses go to our brain, which translates them into what we hear.

How is sound transmitted or heard?

Sound waves are transmitted by the medium’s particles bumping into each other. The closer the particles are, the faster the transfer of vibration from one particle to the next and the faster the speed of sound. Sound cannot travel in a vacuum, unlike light, because there are no particles to do the bumping.

Which part of the ear sends messages to the brain?

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