What can we learn from the Nernst Equation E 23RTzFlogIoIc
What can we learn from the Nernst Equation (E = (2.3RT/zF)log([Io]/[Ic])?
The membrane potential generated from a charged solute distributed across a membrane
The distribution of a charged solute across a membrane
All of the above are correct
The distribution of a charged solute across a membrane resulting from a particular membrane potential
A and B only are correct
| The membrane potential generated from a charged solute distributed across a membrane The distribution of a charged solute across a membrane
|
Solution
Answer : A and B only are correct
The membrane potential generated from a charged solute distributed across a membrane.
Nernst equation is used to determine the membrane potential resulted because of distribution of charged ions inside and outside of the membrane.
E - Membrane potential in mV (milli Volts)
R - Gas constant
T - Temperature in Kelvin
z - Ion charge
F - Faraday\'s constant
Io - External ion concentration
Ii - Internal ion concentration.
![What can we learn from the Nernst Equation (E = (2.3RT/zF)log([Io]/[Ic])? The membrane potential generated from a charged solute distributed across a membrane T What can we learn from the Nernst Equation (E = (2.3RT/zF)log([Io]/[Ic])? The membrane potential generated from a charged solute distributed across a membrane T](/WebImages/3/what-can-we-learn-from-the-nernst-equation-e-23rtzflogioic-975681-1761500460-0.webp)