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What contains receptor that convert sound vibrations to impulses 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.
What part of the inner ear do the receptors convert sounds vibrations into nerve impulses?
Cochlea
What are structures adapted to convert stimuli into nerve impulses called?
Structures adapted to convert stimuli into nerve impulses are called receptors. Receptors can be specialized cells or structures within the body that detect a specific type of stimulus, such as light, sound, pressure, or chemicals, and then convert that stimulus into electrical signals that can be interpreted by the nervous system.
What sends impulses to brain?
sensory neurons
What is the auditory receptors where sound waves finally become neural impulses?
The auditory receptors in the human ear are called hair cells, which are located in the cochlea. These hair cells convert sound waves into neural impulses that can be interpreted by the brain as sound.
What type of output energy are in all receptors?
The type of output energy in all receptors is electrical signals. Receptors convert various forms of stimuli, such as light, sound, pressure, or chemicals, into electrical impulses that can be interpreted by the nervous system.
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 is the path of sound vibrations and impulses from pinna to brain?
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.
What organ composed mainly from epithelial and nervous tissues converts vibrations that are sent to the brain?
The ear is the organ composed mainly of epithelial and nervous tissues that convert vibrations into electrical signals that are then sent to the brain for processing and interpretation. The inner ear contains hair cells that help to detect sound waves and convert them into nerve impulses that travel to the brain via the auditory nerve.
What part of the ear converts vibrations to action potentials?
The inner ear contains the receptors for sound which convert fluid motion into action potentials that are sent to the brain to enable sound perception. The airborne sound waves must be transferred into the inner ear for hearing to occur.
How do sound vibrations carried from the ear to the nerve cells?
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.
In the cochlea?
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.
