Motor nerves conduct impulses from the central nervous system (brain and spinal cord) to muscles and glands in order to stimulate movement or secretion.
The efferent nerves, also known as motor nerves, carry impulses away from the brain and spinal cord to control muscles and glands in the body.
Nerves transmit impulses from the brain to glands. This communication pathway enables the brain to control the release of hormones that regulate various bodily functions.
nerves are also called neurons and they transport impulses(messages)
Neurons that carry impulses away from the central nervous system are called motor neurons. They transmit signals from the brain and spinal cord to muscles or glands, allowing for voluntary and involuntary movements to occur.
Myelinated nerves conduct impulses faster than unmyelinated nerves. The myelin sheath acts as an insulator that allows for faster transmission of nerve signals by increasing the speed at which the action potential travels down the axon.
Nerves conduct impulses in medical terms.
Dendrite is the branching filaments that conduct nerve impulses towards the cell.
nerves
Links That Stimulates sensory nerves to motor nerves
The efferent nerves, also known as motor nerves, carry impulses away from the brain and spinal cord to control muscles and glands in the body.
motor
Sensory nerves carry impulses to the brain (as sights seen, sounds heard, etc.). Motor nerves carry impulses from the brain to cause the body to do things such as move muscles.
Motor neurons are the neurons that conduct impulses from the central nervous system to cardiac muscle, smooth muscle, and glandular epithelial tissue. These types of nerves are what make up the Autonomic nervous system, which regulates the bodies involuntary functions.
remember the word SAMESensory are AfferentMotor are Efferent
Motor Nerves
studying how the nerves conduct electrical impulses
There are the Mixed Nerves in the spinal column that carry both sensory and motor nerves, but these neurons have 2 different jobs that they do,& I know of no neurons doing both as the impulses travel to 2 different locations which couldn't be done at the same time.