Auditory
The nerve cell's thin and dainty shape helps it transmit signals. Also, the "fingers" at the ends help transmit the messages to more than one other nerve cell so the message can reach either the brain or the spinal cord faster. The thin shape also helps keep the message on a straight path and keeps the message from getting confused or mixed up with other messages being transmitted so as to insure the direct and immediate receiving of all the messages. 👍👍👍
Nerve impulses are carried to the brain by specialized cells called neurons. These neurons transmit signals through electrochemical processes along their axons towards the brain where the information is processed and interpreted.
The cochlea contains a fluid called endolymph, which plays a crucial role in the process of hearing. Endolymph helps transmit sound vibrations to the auditory nerve, which sends signals to the brain for interpretation.
The structures that relay nerve impulses between the brain and sense organs are the sensory neurons. These neurons transmit signals from the sense organs to the brain through the central nervous system. In the brain, the signals are processed and interpreted, leading to the perception of various sensory stimuli.
Yes, there are nerves in the buttocks. These nerves help transmit signals between the brain and the muscles and skin in that area, allowing for sensation and movement.
Nerves use electrical impulses to transmit signals to the brain. The gaps between the nerve endings are called synapses.
There is a cranial nerve called the vestibulocochlear nerve which connects your inner ear to your brain stem.
The nerve cell's thin and dainty shape helps it transmit signals. Also, the "fingers" at the ends help transmit the messages to more than one other nerve cell so the message can reach either the brain or the spinal cord faster. The thin shape also helps keep the message on a straight path and keeps the message from getting confused or mixed up with other messages being transmitted so as to insure the direct and immediate receiving of all the messages. 👍👍👍
Nerve impulses are carried to the brain by specialized cells called neurons. These neurons transmit signals through electrochemical processes along their axons towards the brain where the information is processed and interpreted.
Olfactory nerve
The cochlea contains a fluid called endolymph, which plays a crucial role in the process of hearing. Endolymph helps transmit sound vibrations to the auditory nerve, which sends signals to the brain for interpretation.
Bundles of axons are called nerves. Nerves transmit electrical signals between the brain and other parts of the body.
The structures that relay nerve impulses between the brain and sense organs are the sensory neurons. These neurons transmit signals from the sense organs to the brain through the central nervous system. In the brain, the signals are processed and interpreted, leading to the perception of various sensory stimuli.
The functions of the nerve cells is to carry messages around our body. To adapt to their job, they are very long and are branched at each end.Nerve cells receive, carry, and pass electrical impulses.Neurons (or nerve cells) are the smallest unit of the nervous system which send signals to the rest of the body to perform what ever function the brain wants it to; such as telling the heart to beat.
The nerves are part of the Nervous System. The nerves will transmit the information that they get to the brain. Your brain will then send signals back to those nerve cells and tell them whether they should respond to the stimulus or whether they should just ignore.
The auditory nerve transmits sound signals from the inner ear to the brain. It carries electrical impulses generated by the hair cells in the cochlea to the brainstem, where the signals are further processed and interpreted as sound.
Sensory nerves carry information from the body to the brain, allowing us to sense things like touch, temperature, and pain. Motor nerves, on the other hand, carry signals from the brain to the muscles, enabling movement and coordination. In summary, sensory nerves transmit sensory information to the brain, while motor nerves transmit signals from the brain to the muscles for movement.