What_is_the_path_that_sound_takes_through_the_earwaves enter through the outer ear, then sound waves move through the ear canal. Next sound waves strike the eardrum, causing it to vibrate, then vibrations enter the middle ear. Then the hammer picks up the vibrations, then vibrations are passed to the anvil. Next the vibrations are transmitted to the stirrup, then a vibrating membrane transmits vibrations to the inner ear, and then vibrations are channeled into the cochlea. Then nerve cells detect vibrations and convert them to electrical impulses, then electrical impulses are transmitted to the brain. Then the brain interprets electrical impulses as sound.
The cocheal contains receptor cells that convert sound vibrations into impulses that are sent to the brain.
The cochlea in the inner ear contains receptors called hair cells that convert sound vibrations into electrical impulses. These impulses are then sent to the brain via the auditory nerve, where they are interpreted as sound.
Sound waves enter through the outer ear, then sound waves move through the ear canal. Next sound waves strike the eardrum, causing it to vibrate, then vibrations enter the middle ear. Then the hammer picks up the vibrations, then vibrations are passed to the anvil. Next the vibrations are transmitted to the stirrup, then a vibrating membrane transmits vibrations to the inner ear, and then vibrations are channeled into the cochlea. Then nerve cells detect vibrations and convert them to electrical impulses, then electrical impulses are transmitted to the brain. Then the brain interprets electrical impulses as sound.
Sound vibrations are converted into nerve impulses in the inner ear. The vibrations are detected by hair cells in the cochlea, which then stimulate the auditory nerve to send signals to the brain for processing and interpretation of sound.
In the ear, sound vibrations are converted into nerve impulses in the cochlea, a spiral-shaped organ that contains hair cells. These hair cells respond to the vibrations by sending electrical signals through the auditory nerve to the brain, where they are perceived as sound.
Sound waves enter through the outer ear, then sound waves move through the ear canal. Next sound waves strike the eardrum, causing it to vibrate, then vibrations enter the middle ear. Then the hammer picks up the vibrations, then vibrations are passed to the anvil. Next the vibrations are transmitted to the stirrup, then a vibrating membrane transmits vibrations to the inner ear, and then vibrations are channeled into the cochlea. Then nerve cells detect vibrations and convert them to electrical impulses, then electrical impulses are transmitted to the brain. Then the brain interprets electrical impulses as sound.
Sound is received by the ear when sound waves travel through the air and cause the eardrum to vibrate. These vibrations are transmitted to the inner ear where they are converted into electrical signals that are interpreted by the brain as sound.
Sound waves are 'collected' by the ear drum. This is a film stretched across the ear canal. Much like it's namesake, it responds to sound waves by vibrating. These vibrations are read as electrical signals by your nerves, and it is transmitted to brain as impulses.
The auditory nerve is responsible for relaying vibrations from the cochlea, in the inner ear, to the brain as electrical impulses. The auditory centre of the brain then interprets these as sound.
Impulses in the ear are transmitted by hair cells located in the cochlea. These hair cells convert sound vibrations into electrical signals that are then sent to the brain via the auditory nerve.
the sound wave vibrate the cochlea in your ear (a small snail like organ in your ear) the fluid inside it shake touching receptors your brain takes the vibrations and and relays the info
The ear drum. Then the ear drum pass the vibrations onto the hammer, stirrup, and anvil (the smallest bones in the human body in the inner ear), where nerves send electrical impulses called synapses to the brain. The brain processes the vibrations and sends you the sound the noise created.