yes
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.
The optic nerve is a group of nerve fibers that function to provide vision. The optical never works by transferring electrical impulses to the brain from a part of the eyes known as the retina.
The bundle of nerve fibers that send messages to the brain for interpretation is called the sensory pathway. These pathways carry sensory information from the peripheral nervous system to the brain where it is processed and interpreted.
Olfactory impulses are carried to the brain by olfactory nerve fibers, which are specialized nerve cells located in the roof of the nasal cavity. These nerve fibers send signals to the olfactory bulb located in the brain, where the information is processed and interpreted as different smells.
Nociceptors are responsible for transmitting pain impulses. These are specialized nerve endings that detect tissue damage or potentially harmful stimuli and send signals to the brain to alert the body of pain.
The brain continues to send nerve impulses to sweat glands throughout life. Sweat production is regulated by the autonomic nervous system, controlling factors such as temperature, emotions, and physical activity.
Neurons, or nerve cells, pick up the impulses and send them to other neurons through axons and dendrites until it reaches the spinal cord.
It's Sodium and Potassium are necessary for the transmission of nerve impulses
The answer is the central send impulses and the brain and spinal chord are used in this application.
Quite a few, depending on what sensation you're interested in, but the cribiform plate is actually a part of the brain (the olfactory lobe), the only part of the brain that connects to the outside world directly.
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.
No, the brain itself does not have nerve endings. Nerve endings are found in other parts of the body, such as the skin, that send signals to the brain.