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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 hair cells in the cochlea convert pressure waves into nerve impulses. When sound vibrations move through the cochlear fluid, they cause the hair cells to bend. This bending opens ion channels, which triggers a nerve impulse that is sent to the brain via the auditory nerve.
Sound vibrations enter the ear drum and cause it to vibrate. These vibrations are transferred through the middle ear bones to the cochlea, a spiral-shaped organ in the inner ear. Within the cochlea, specialized hair cells convert the vibrations into electrical signals that are transmitted by the auditory nerve to the brain for processing as sound.
After the auditory ossicles, sound waves enter the cochlea, which is a spiral-shaped structure in the inner ear. Inside the cochlea, the sound waves are converted into electrical impulses by hair cells. These impulses are then transmitted to the brain via the auditory nerve, where they are processed and interpreted as sound.
The ossicles amplify the sound. They send the sound waves to the inner ear and into the fluid-filled hearing organ (cochlea). ... The auditory nerve sends these impulses to the brain. The brain then translates these electrical impulses as sound.
cochlea
The hair cells in the cochlea convert pressure waves into nerve impulses. When sound vibrations move through the cochlear fluid, they cause the hair cells to bend. This bending opens ion channels, which triggers a nerve impulse that is sent to the brain via the auditory nerve.
The cochlea in the inner ear is responsible for converting sound waves into nerve impulses. Sound waves travel through the cochlea, which contains hair cells that bend in response to the vibrations, triggering the conversion of sound into electrical signals that are sent to the brain via the auditory nerve.
A microphone converts sound vibrations into electrical impulses by using a diaphragm that moves in response to sound waves. This movement is transformed into an electrical signal by a transducer, such as a coil or condenser, which generates a voltage proportional to the sound waves.
The cochlea is a spiral-shaped, fluid-filled structure in the inner ear responsible for hearing. It contains hair cells that convert sound vibrations into electrical signals that are sent to the brain via the auditory nerve. The cochlea plays a crucial role in processing and transmitting sound information for perception.
The cochlea is a spiral-shaped organ in the inner ear responsible for converting sound vibrations into electrical signals that can be interpreted by the brain. It contains thousands of hair cells that help transmit these signals to the auditory nerve, allowing us to perceive and interpret sound.
The structures for connecting sound waves to nerve impulses are located in the inner ear. Specifically, the hair cells in the cochlea are responsible for converting sound waves into nerve impulses that can be transmitted to the brain for processing.
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.
The answer should be the cochlea.
the cilia inside the cochlea
Cochlea
yes. yes it does!