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The stapes, the smallest bone in the human body, transmits sound vibrations from the middle ear to the cochlea in the inner ear. It functions to amplify and transfer sound waves to the fluid-filled cochlea.
The cochlea is a spiral-shaped organ in the inner ear filled with fluid. When sound waves enter the ear, they cause the fluid in the cochlea to move, stimulating hair cells. These hair cells convert the movement into electrical signals that are sent to the brain via the auditory nerve, where they are processed as sound.
Sound waves act on the eardrum, which drives a set of three tiny bones, of which the stirrup acts upon the Oval Window of the Cochlea, thus inducing pressure waves in the fluid of that organ. These waves move the signal hairs and thus their nerves which communicate with the brain.
The structure that catches the wave and stops the vibration through the cochlea is the round window. It functions to release the pressure generated by the movement of fluid within the cochlea, allowing for proper transmission of sound waves through the inner ear.
The cochlea is a fluid-filled structure in the inner ear that vibrates in response to sound waves. These vibrations stimulate hair cells within the cochlea, which then send signals to the auditory nerve, allowing the brain to process sound.
Cilia and fluid in your cochlea respond to the vibration of oval window. Fluid vibrates between your oval and round window.
The cochlea is located at the end of the ear canal - inside the ear. It contains fluid and microscopic hairs (cilia). Sound waves received by the ear causes movement of the cilia - which is interpreted by the brain.
The cochlea is a fluid-filled organ of the inner ear responsible for converting sound waves into electrical signals that are sent to the brain for processing. It houses the hair cells that respond to different frequencies of sound. The movement of the fluid inside the cochlea stimulates these hair cells and allows us to hear.
Endolymp
That's the inner ear ... where the fluid in the cochlea tickles the cilia on its walls, then the little cilia tickle the ends of nerves. From there, it's just a short hop through the nerves to the brain. They get a direct, non-stop, and don't even have to travel via the spinal cord.
The sound waves first vibrate the eardrum, which then transmits the vibrations to the fluid in the cochlea. The fluid in the cochlea contains sensory hair cells that convert the vibrations into electrical signals that the brain interprets as sound.
The inner ear is a snail-shaped structure called the cochlea, which is filled with fluid. When the oval window vibrates, it causes the fluid in the cochlea to vibrate. This fluid surrounds a membrane running through the middle of the cochlea called the basilar membrane. The answer of your question is the Basilar Membrane.
Endolymph is the fluid present in the inner part of the ear, including the cochlea. It plays a crucial role in transmitting sound vibrations to the auditory nerve for processing in the brain.
The cochlea is the spiral-shaped part of the inner ear responsible for hearing. It is filled with fluid and contains hair cells that convert sound vibrations into electrical signals sent to the brain for interpretation.
The internal ear consists of the cochlea, semicircular canals, and vestibule. The cochlea is responsible for hearing, while the semicircular canals and vestibule are involved in balance and spatial orientation. These structures are filled with fluid and contain sensory cells that respond to sound waves and head movements.
The cochlea is the structure of the human ear that is filled with fluid and lined with tiny hair cells. These hair cells are responsible for converting sound vibrations into electrical signals that are then sent to the brain for processing.
The inner ear or the cochlea