| 11. | This inability to induce another action potential is known as the absolute refractory period.
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| 12. | Under restrictive assumptions, there exist periodic solutions that display hyperpolarization and refractory periods.
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| 13. | Class Ia slows phase 0 depolarization in the ventricles and increases the absolute refractory period.
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| 14. | The return to the equilibrium resting potential marks the end of the relative refractory period.
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| 15. | This period is the relative refractory period.
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| 16. | The absolute refractory period is largely responsible for the unidirectional propagation of action potentials along axons.
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| 17. | Absolute refractory period corresponds to depolarization and repolarization, whereas relative refractory period corresponds to hyperpolarization.
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| 18. | Absolute refractory period corresponds to depolarization and repolarization, whereas relative refractory period corresponds to hyperpolarization.
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| 19. | Which converges for large input currents to the previous leak-free model with refractory period.
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| 20. | However, other men are averse to stimulation during the early part of the refractory period.
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