Question

The Action Potential of a neuron contributes to the signaling communication between neurons. During a typical action potential, the membrane potential reaches a threshold of -55 mV and then rapidly increases to +40 mV due to the influx of sodium ions (called depolarization). Calculate the inside and outside concentration of sodium ions during depolarization (membrane potential increases from -55 mV to +40 mV) at T = 36 °C. Suppose the inside and outside concentration of sodium before depolarization is 42 mM and 433 mM. Show your work.

          The Action Potential of a neuron contributes to the signaling communication between neurons. During a typical action potential, the membrane potential reaches a threshold of -55 mV and then rapidly increases to +40 mV due to the influx of sodium ions (called depolarization). Calculate the inside and outside concentration of sodium ions during depolarization (membrane potential increases from -55 mV to +40 mV) at T = 36 °C. Suppose the inside and outside concentration of sodium before depolarization is 42 mM and 433 mM. Show your work.

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Added by Purificaci-N M.

Biology for AP Courses

Julianne Zedalis, John Eggebrecht

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Solved by Expert Adi S

05/16/2022

Step 1

Step 1: Calculate the equilibrium potential for sodium ions using the Nernst equation: \[ E_{Na^+} = \frac{RT}{zF} \ln\left(\frac{[Na^+]_{out}}{[Na^+]_{in}}\right) \] Show more…

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The Action Potential of a neuron contributes to the signaling communication between neurons. During a typical action potential, the membrane potential reaches a threshold of -55 mV and then rapidly increases to +40 mV due to the influx of sodium ions (called depolarization). Calculate the inside and outside concentration of sodium ions during depolarization (membrane potential increases from -55 mV to +40 mV) at T = 36 °C. Suppose the inside and outside concentration of sodium before depolarization is 42 mM and 433 mM. Show your work.

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