Nerve impulses travel up through nerves, into the spinal cord and into one of the different lobes of the brain depending on where the impulse comes from. For example, if the impulse comes from your ear, the impulse would travel to the temporal lobe.
yes, in woman nerve impulses travel to the brain faster than men
Nerve impulses travel through nerve fibers, and the speed of which they travel depends on the type of nerve fiber. They travel usually around 86 miles per hour.
They do not travel - their position is fixed throughout the body. Nerve impulses travel.
It is the "skipping" pattern that impulses follow to travel down nerve axons.
1) Why do nerve impulses need to travel faster in a Human than in an earthworm? 1) Why do nerve impulses need to travel faster in a Human than in an earthworm? 1) Why do nerve impulses need to travel faster in a Human than in an earthworm? 1) Why do nerve impulses need to travel faster in a Human than in an earthworm?
Nerve impulses travel up through nerves, into the spinal cord and into one of the different lobes of the brain depending on where the impulse comes from. For example, if the impulse comes from your ear, the impulse would travel to the temporal lobe.
Nerve impulses do not travel at 170 mph; instead, they can vary significantly in speed depending on the type of nerve fiber. In myelinated fibers, impulses can travel at speeds up to about 120 meters per second (approximately 268 mph), while unmyelinated fibers are much slower. Thus, while some nerve impulses can approach high speeds, they do not typically reach 170 mph.
The major difference is the direction of travel for nerve impulses. In the afferent nervous system, the impulses are traveling away from the brain - these tend to be motor impulses. In the efferent nervous system, the impulses are traveling towards the brain - these tend to be sensory impulses.
Unmyelinated nerve fibers conduct impulses more slowly than myelinated nerve fibers. Myelinated nerve fibers have a fatty substance called myelin sheath that allows for faster transmission of impulses compared to unmyelinated fibers without this sheath.
car
afferent neurons
No, SA Node