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The shape of nerve cells, specifically their long, branching extensions called dendrites and axons, allows them to efficiently transmit electrical signals over long distances. Dendrites receive signals from other neurons, while axons transmit these signals to other neurons or muscle cells. This specialized shape enables nerve cells to communicate and coordinate information throughout the body.
The nerve cell's thin and dainty shape helps it transmit signals. Also, the "fingers" at the ends help transmit the messages to more than one other nerve cell so the message can reach either the brain or the spinal cord faster. The thin shape also helps keep the message on a straight path and keeps the message from getting confused or mixed up with other messages being transmitted so as to insure the direct and immediate receiving of all the messages. 👍👍👍
Glial tissue provides support and protection for neurons in the central nervous system. It also helps to maintain the environment for proper neuronal function, aids in communication between neurons, and plays a role in repairing damaged neural tissue.
A relay neuron, also known as an interneuron, helps to transmit signals between sensory and motor neurons in the central nervous system. In contrast, a motor neuron is responsible for transmitting signals from the central nervous system to muscles or glands, resulting in movement or secretion. Relay neurons process and integrate information, while motor neurons directly stimulate muscle contractions.
the function of the neuron's axon is to carry messages to other cells
it helps to speed up the process of transmitting messages between neurons.
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The shape of nerve cells, specifically their long, branching extensions called dendrites and axons, allows them to efficiently transmit electrical signals over long distances. Dendrites receive signals from other neurons, while axons transmit these signals to other neurons or muscle cells. This specialized shape enables nerve cells to communicate and coordinate information throughout the body.
The nerve cell's thin and dainty shape helps it transmit signals. Also, the "fingers" at the ends help transmit the messages to more than one other nerve cell so the message can reach either the brain or the spinal cord faster. The thin shape also helps keep the message on a straight path and keeps the message from getting confused or mixed up with other messages being transmitted so as to insure the direct and immediate receiving of all the messages. 👍👍👍
Glial tissue provides support and protection for neurons in the central nervous system. It also helps to maintain the environment for proper neuronal function, aids in communication between neurons, and plays a role in repairing damaged neural tissue.
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.
A relay neuron, also known as an interneuron, helps to transmit signals between sensory and motor neurons in the central nervous system. In contrast, a motor neuron is responsible for transmitting signals from the central nervous system to muscles or glands, resulting in movement or secretion. Relay neurons process and integrate information, while motor neurons directly stimulate muscle contractions.
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Electrotonic conduction helps propagate signals in neurons by allowing electrical signals to passively spread along the neuron's membrane. This process involves the movement of charged ions, such as sodium and potassium, which creates an electrical gradient that helps transmit signals from one part of the neuron to another.
Hormones and neurotransmitters work together in the body to regulate physiological processes by communicating messages between cells. Hormones are chemical messengers released by glands into the bloodstream to target specific organs, while neurotransmitters are released by nerve cells to transmit signals between neurons. Both hormones and neurotransmitters bind to receptors on target cells, triggering a response that helps regulate processes such as growth, metabolism, and mood.
the function of the neuron's axon is to carry messages to other cells
Yes, typically multiple neurons receive and transmit signals in response to a stimulus. This helps to amplify and process the incoming information before it is transmitted to the brain for further processing and interpretation.