Hi there, I am currently learning about membrane potentials in a physiology class, but I'm having a little trouble. I understand that differences in concentration of an ion creates a chemical gradient, and that as these ions move across the membrane, an electric potential is created. The electric potential that exactly counterbalances the chemical force is the equilibrium potential. That much I'm okay with.
We went over the Goldman Equation (as seen in the attachment I have provided), and the key takeaway here is that membrane potential is mostly affected by those ions which are most permeable. This makes sense when thinking about the fact that if ions have the ability to move they can change the electric potential of a membrane. What I'm confused about though, is why, according to this equation, non-penetrating particles have zero effect on membrane potential. If there was a hypothetical cell with 1 million negatively charged non-penetrating ions inside of it and 1 million positively charged non-pentrating ions outside of it, this would clearly create an electric force pulling positively charged particles inside the cell. But according to this equation and what I've been told in class, only the non-penetrating ions have an effect on membrane potential. I was hoping someone here might be able to point out the fault in my logic and help me understand this better. Any help is greatly appreciated, thanks!
