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Does The cochlea converts sound waves into electrochemical impulses which are transmitted to the brain?
Yes, the cochlea is a spiral-shaped structure in the inner ear that converts sound waves into electrochemical impulses. When sound waves enter the cochlea, they cause fluid within it to move, which stimulates hair cells along the basilar membrane. These hair cells then generate electrical signals that are transmitted to the brain via the auditory nerve, allowing us to perceive sound.
Which structure of the ear converts sound vibrations into nerve signals?
The cochlea is the structure of the ear that converts sound vibrations into nerve signals. It contains hair cells that are responsible for detecting the vibrations and transmitting them to the brain through the auditory nerve.
How do pressure waves in the cochlea lead to an action potential in the auditory nerve?
Temporal
What transmits impulses in the ear?
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.
What transmits sound waves to the inner ear making waves in the fluid in the cochlea?
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.
What structure in the ear converts sound waves into nerve impulses?
In general, the cochlea. More specifically, an impulse is carried into the brain along the auditory nerve when the tectorial membrane and the basilar membrane inside the cochlea are pressed together by the force of sound waves.
The structure in the ear that initiates impulses in the auditory nerve is?
The answer should be the cochlea.
What cranial nerve carries hearing impulses to the brain?
the "vestibulocochlear" nerve is used for hearing. the hair cells of the cochlea and vestibular are how the nerve receives the information. The nerve is (VIII) out of the 12 cranial nerves.
Does The cochlea converts sound waves into electrochemical impulses which are transmitted to the brain?
Yes, the cochlea is a spiral-shaped structure in the inner ear that converts sound waves into electrochemical impulses. When sound waves enter the cochlea, they cause fluid within it to move, which stimulates hair cells along the basilar membrane. These hair cells then generate electrical signals that are transmitted to the brain via the auditory nerve, allowing us to perceive sound.
Does the cochlea in the inner ear transform sound impressions into the nerve impulses?
yes. yes it does!
What part of the inner ear do the receptors convert sounds vibrations into nerve impulses?
Cochlea
What Sound vibration are converted into nerve impulses in the?
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.
Where are Sound Vibration Are Converted In To Nerve Impulses?
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.
Where are the structures for connecting sound waves to nerve impulses located?
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.
Which structure of the ear converts sound vibrations into nerve signals?
The cochlea is the structure of the ear that converts sound vibrations into nerve signals. It contains hair cells that are responsible for detecting the vibrations and transmitting them to the brain through the auditory nerve.
What auditory nerve is responsible for?
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.
How do pressure waves in the cochlea lead to an action potential in the auditory nerve?
Temporal
