The part that travels through the neuron is the action potential, which is an electrical signal generated when a neuron is stimulated. This signal propagates along the axon, allowing for rapid communication between neurons. The action potential results from the movement of ions across the neuron's membrane, particularly sodium and potassium ions. This process enables the transmission of information in the nervous system.
An electrical impulse will travel through a neuron.
An Impulse
An Impulse
The first part of the neuron to receive an impulse from an adjacent neuron is the dendrites. Dendrites are branch-like structures that extend from the neuron's cell body and are specialized to receive signals from other neurons. When a neurotransmitter is released from the adjacent neuron's axon terminal, it binds to receptors on the dendrites, initiating an electrical impulse that travels through the neuron.
A message travels through a neuron in the following order: dendrites receive the signal, the signal is passed through the cell body (soma), travels down the axon, and finally reaches the synaptic terminals where it is transmitted to the next neuron.
The message that travels through a neuron is an electrical impulse called an action potential. It is generated when the neuron is stimulated and travels along the neuron's axon, facilitated by the movement of charged ions. This ultimately allows the neuron to communicate with other neurons or target cells.
Okay, information is received through the dendrites, and then moves on the the cell body. From there, the cell's axon passes the message on to other neurons or to muscles or glands.
The electrical impulse travels into the dendrites, the "input" of the neuron, and into the soma or "body" where the signal gets processed. From there, the processed signal travels down the axon or "output" and into the dendrites of another neuron.
axon
After a neurotransmitter travels through the synaptic cleft, it binds to receptors on the receiving neuron, which can either excite or inhibit the receiving neuron's activity. This process helps transmit signals between neurons in the brain and nervous system.
The nerve impulse typically travels from the sensory neuron to the spinal cord, where it is processed by interneurons, and then to the motor neuron to elicit a response from the effector organ or muscle.
it travels through the dendrite to the synaptic terminal to the axon