| When expressed in terms of the potential recorded within the cell, with the surrounding medium viewed as zero, resting potential is negative. |
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| Movements In neurons that are electrically inactive, membrane potential is in a steady state and is termed resting potential. |
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| The resting potential is dependent upon ionic equilibria and the selective permeability of the plasma membrane. |
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| The membrane potential across the axon of a neuron that is not being excited is the resting potential. |
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| The cell's overall resting potential will reflect the cumulative effects of each ion's Nernst potential contribution. |
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| Linearization around resting potential produces a good approximation to the impedance and phase profiles for weakly forced linear systems. |
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| This decreases the resting potential of the myocytes of the SA node while increasing the rate of diastolic depolarization. |
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| The neurons relax towards their resting potential V L in the absence of any interaction. |
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| As soon as the stimulus is switched off, the system relaxes back to the resting potential. |
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| It is inherent to the neuron itself and expresses the time element and its tendency to bring the potential back to its resting potential. |
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| Where this action potential normally rapidly returns to the original resting potential, repetitive electrochemical action potential is aroused by the andullation. |
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| In specialized pacemaking cells, found in the sinoatrial node, the negative resting potential rhythmically drifts toward the positive threshold potential. |
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