Yes, the cochlear duct contains sensory cells that convert vibrations into nerve signals. These nerve signals are then transmitted via the auditory nerve fibers to the brain for processing and perception of sound.
Organ of corti
The medulla relays auditory information from the cochlea to higher centers in the brain, such as the thalamus and auditory cortex. It plays a crucial role in processing and interpreting sound signals received from the ears.
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
There is no "cure" for deafness. There are ways for a deaf person to hear again though. There is now a Cochlear Implant which is a surgery performed that relays sound from the mic on the implant directly to the brain rather than going through the damaged cochlea.
There is no "cure" for deafness. There are ways for a deaf person to hear again though. There is now a Cochlear Implant which is a surgery performed that relays sound from the mic on the implant directly to the brain rather than going through the damaged cochlea.
The nervous system relays impulses between the brain and other body parts through nerve cells called neurons. These neurons communicate through electrical signals that travel along nerve fibers to transmit information throughout the body.
relays are two type 1. Electromagnetic attraction relays. 2. Electromagnetic induction relays.
looking for relays in citreon xzara
Kansas Relays was created in 1923.
Relays are bidirectional devices.
There is no such thing as "tandem relays" in baseball.