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Hyperpolarization is a change in a cell's membrane potential that makes it more negative. Cells typically have a negative resting potential, with neuronal action potentials depolarizing the membrane. Cells typically have a negative resting potential, with neuronal action potentials depolarizing the membrane.
Hyperpolarization occurs because the slow-acting potassium channels take longer to deactivate, so the membrane overshoots the resting potential. It gradually returns to resting potential and is ready for another action potential to occur. During the action potential before the hyperpolarization phase, the membrane is unresponsive to any ...
Hyperpolarization by the delayed-rectifier potassium channels causes a relative refractory period that makes it much more difficult to reach threshold. The delayed-rectifier potassium channels are responsible for the late outward phase of the action potential, where they open at a different voltage stimulus compared to the quickly activated ...
The afterhyperpolarisation is one of the processes that contribute to the refractory period. Afterhyperpolarization, or AHP, is the hyperpolarizing phase of a neuron's action potential where the cell's membrane potential falls below the normal resting potential. This is also commonly referred to as an action potential's undershoot phase. AHPs ...
In mathematical terms, the definition of voltage begins with the concept of an electric field E, a vector field assigning a magnitude and direction to each point in space. In many situations, the electric field is a conservative field, which means that it can be expressed as the gradient of a scalar function V, that is, E = –∇V.
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However, care is needed because some authors [6] take out the factor from (), so that = and hence () = /, which is convenient because then the (hyper-)polarizability may be accurately called the (nonlinear-)susceptibility per molecule, but at the same time inconvenient because of the inconsistency with the usual linear polarisability definition ...
Multiple inhibitory inputs combine and deepen hyperpolarization of the membrane (more negative). If the cell is receiving both inhibitory and excitatory postsynaptic potentials, they can cancel each other out, or one can be stronger than the other, and the membrane potential will change by the difference between them.