Action potential
During action potential transmission, the signal is carried along the neuronal membrane by the movement of ions such as sodium and potassium across the membrane. This movement creates changes in the membrane potential, allowing the signal to travel down the length of the neuron.
The regeneration of action potential is called "propagation." It involves the transmission of the action potential along the length of the neuron's axon.
By self regenerating, they mean that when you start an action potential, it continues in proximal (nearby) tissue (e.g., nerve). The depolarization of the action potential continues along the nerve.
It can be called a NEURAL IMPULSE, or a NEURAL SIGNAL.It might also be called the FIRING of the neuron.It's usually just referred to as the ACTION POTENTIAL, even though the AP is really just an event at a measured point along the axon, since that local event is self propagating along the axon.And if it were a MYELINATED axon, the propagation would be called SALTATORY CONDUCTION.
Action potential
During action potential transmission, the signal is carried along the neuronal membrane by the movement of ions such as sodium and potassium across the membrane. This movement creates changes in the membrane potential, allowing the signal to travel down the length of the neuron.
The regeneration of action potential is called "propagation." It involves the transmission of the action potential along the length of the neuron's axon.
The graded potential generated along the muscle cell membrane is known as an action potential. This is an electrical signal that travels along the membrane of the muscle cell, leading to muscle contraction. It is initiated by the movement of ions across the membrane in response to a stimulus.
The type of potential described is an action potential. It is generated by the movement of ions such as sodium and potassium across the axon membrane, leading to a rapid change in voltage that allows for the transmission of signals along the neuron.
The movement of positively charged atoms, such as sodium and potassium ions, in and out of channels in the axon's membrane generates an electrical signal called an action potential. This action potential serves as the neural impulse that travels along the axon to transmit information within the nervous system.
calcium increases the action potential transmitted along the scarcolemma
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By self regenerating, they mean that when you start an action potential, it continues in proximal (nearby) tissue (e.g., nerve). The depolarization of the action potential continues along the nerve.
By self regenerating, they mean that when you start an action potential, it continues in proximal (nearby) tissue (e.g., nerve). The depolarization of the action potential continues along the nerve.
It can be called a NEURAL IMPULSE, or a NEURAL SIGNAL.It might also be called the FIRING of the neuron.It's usually just referred to as the ACTION POTENTIAL, even though the AP is really just an event at a measured point along the axon, since that local event is self propagating along the axon.And if it were a MYELINATED axon, the propagation would be called SALTATORY CONDUCTION.
Sodium ions enter the axon during action potential. This influx of sodium ions depolarizes the axon membrane, leading to the propagation of the action potential along the axon.