An Impulse
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.
Receptor → Sensory Neuron → Associative Neuron→ Motor division →Effectors
Yes, through some materials. It certainly travels through air, and you may have noticed that it travels through water and glass.Yes, through some materials. It certainly travels through air, and you may have noticed that it travels through water and glass.Yes, through some materials. It certainly travels through air, and you may have noticed that it travels through water and glass.Yes, through some materials. It certainly travels through air, and you may have noticed that it travels through water and glass.
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Neurotransmitters are stored in tiny sacs called synaptic vesicles within the axon terminals of neurons. When an action potential travels down the neuron, these vesicles release neurotransmitters into the synapse, where they can then bind to receptors on the adjacent neuron.
An Impulse
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.
it travels through the dendrite to the synaptic terminal to the axon
An electrical impulse will travel through a neuron.
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.
It travels from the brain to the Spinal Cord.
The electrical message that travels along a neuron is called an action potential. It is a brief change in electrical voltage that travels down the length of the neuron, allowing for communication between neurons and the transmission of signals throughout the nervous system.
The message travels through the axon and Schwann cells (which make up the axon) as an electrical message. When it reaches the dendrite, it is converted into a chemical message where it can be picked up by another neuron.
Well, isn't that just a happy little question! When a message travels within a neuron, it starts at the dendrites, moves through the cell body, and then down the axon. Finally, it reaches the axon terminals where it can pass on to the next neuron. Just like painting a beautiful landscape, each step is important in creating a masterpiece of communication in our brains.
When a message gets sent to a neuron from the dendrite it goes through the cell body to the tip of the dendrite where it leaps to the next dendrite.
When transmitting a message, a signal travels through the neuron until the cell ends at the terminal. In order to propagate the signal to the next neuron chemical messengers (neurotransmitters) are released into the inter-neuronal space (synapse). This triggers signal initiation in the second neuron.