because its lazy!!
Well they are sent through the nervous system.
because its lazy!!
the auditory nerve pathways carry impulses to the auditory cortices in the ?
An electrical signal traveling along a nerve is called a nerve impulse or action potential.
nerve pathways
The cranial nerve responsible for moving the cheek muscles is cranial nerve V (the trigeminal nerve). However, cranial nerve IX (glossopharyngeal) and cranial nerve XII (hypoglossal) are also involved in moving the tongue, the throat for swallowing and the muscles along the floor of the jaw.
Nerve impulses travel in one direction along a neuron, from the dendrites, through the cell body, down the axon, and finally to the axon terminals. At the axon terminals, neurotransmitters are released to communicate with the next neuron or target cell. This process allows the nerve impulse to pass through the nervous system efficiently.
The form of message carried by a nerve cell is called an action potential. An action potential is a brief electrical signal that travels along the nerve cell's axon, allowing for communication between different parts of the nervous system.
The sensory neurons in your peripheral nervous system are responsible for detecting pain signals from your body and transmitting them to your brain. These neurons are equipped with specialized receptors that respond to stimuli like temperature, pressure, and tissue damage, sending electrical signals along nerve pathways to your brain to signal pain.
The longitudinal bundles of nerve fibers within the spinal cord that comprise major nerve pathways are called tracts. These tracts are organized based on their function and transmit information to and from different regions of the body to the brain.
No, nerve impulses travel down the internodal pathways towards the AV node, not from it. The internodal pathways conduct the impulse from the SA node to the AV node, assisting in the synchronization of the heart's electrical activity.
When a neuron is stimulated, ions move across its membrane, creating a change in the electrical potential of the neuron. This change, known as an action potential, is propagated along the neuron's axon, allowing for the transmission of electrochemical signals.