the Optic Nerve
From the brain or nerve endings to dendrites
The dendrite carries messages to the cell. The axon carries messages away from the cell. These messages travel to the nerves ,that goes to the spinal cord, to the brain.
Axons carry messages away from the nerve cell body toward the synapse. These long fibers transmit electrical impulses and release neurotransmitters at the synapse to communicate with other cells.
The nerve that carries autonomic signals away from the central nervous system is classified as the preganglionic nerve. These nerves originate from the brain or spinal cord and synapse with postganglionic neurons in autonomic ganglia.
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.
By the optic nerve, which is connected to the brain. The optic nerves takes nerve signals from the retina and sends it to the brain.
Some nerve cells have fibers that grow out of the cell, which are called axons. Axons allow a nerve cell to connect to distant parts of the body, so that cells in the brain can send messages to, and receive messages from a toe, for example, which might be six feet away from the brain. Other nerve cells just connect to their immediate neighboring nerve cells, and therefore do not require axons; they instead have smaller extensions called dendrites.
it is your nearves just like they carry messages to your brain. only when they get to your brain your brain tells them to go to the muscle that needs the message
The axons.
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.
axon
Nerves, known as neurons, carry messages from the brain to different parts of the body. These messages are transmitted through electrical and chemical signals that travel along nerve fibers. The nervous system is responsible for coordinating and controlling movement and bodily functions based on signals from the brain.