Increasing the permeability of the membrane to K+ will lead to more K+ ions moving into the cell, causing the cell to become more positively charged. This can impact the resting membrane potential and potentially lead to changes in cellular function and excitability.
Yes, the resting membrane potential is largely determined by the concentration gradient of potassium ions (K+) inside the cell. This is due to the high permeability of the cell membrane to K+ ions, which allows them to move down their concentration gradient, establishing the negative resting potential.
There is a greater concentration of Na plus outside and there is a greater concentration of K plus inside the cell. When the stimulus is delivered, the permeability of the membrane is changed, and Na plus diffuses into the cell, initiating the depolarization of the membrane.
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
A plant has a cell membrane and so does an animal, but they're not just one. An animal has a cell membrane just like a plant but they look different and have different functions.
it is in the membriane it is in the membraine it is in the membraine-no its not and stop repeating it.And plus you spelled membrane wrong.
Yes, the resting membrane potential is largely determined by the concentration gradient of potassium ions (K+) inside the cell. This is due to the high permeability of the cell membrane to K+ ions, which allows them to move down their concentration gradient, establishing the negative resting potential.
There is a greater concentration of Na plus outside and there is a greater concentration of K plus inside the cell. When the stimulus is delivered, the permeability of the membrane is changed, and Na plus diffuses into the cell, initiating the depolarization of the membrane.
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
for increasing
ATP Synthase
No. Although it is increasing most of the time, it is decreasing between x=-1 and x=1.
The membrane potential is determined by the distribution of ions across the membrane and their relative permeabilities. In both cases, if there are only potassium (K⁺) channels and no sodium (Na⁺) channels, the membrane potential will primarily reflect the equilibrium potential for potassium, which is governed by the Nernst equation. Thus, whether there are 3 K⁺ channels or 5 K⁺ channels, the increased conductance from more K⁺ channels does not change the equilibrium potential for potassium, leading to the same membrane potential in both scenarios.
A plant has a cell membrane and so does an animal, but they're not just one. An animal has a cell membrane just like a plant but they look different and have different functions.
it is in the membriane it is in the membraine it is in the membraine-no its not and stop repeating it.And plus you spelled membrane wrong.
axon and schwann cell
Liability has credit balance as normal balance so credit joins credit and increases it while assets has debit balance as normal balance so debit and credit cannot join together like plus plus is equals to plus.
NA plus channels open in response to a change in the membrane potential, causing the channel to undergo conformational changes that lead to its opening. This change in membrane potential can be initiated by various stimuli, such as neurotransmitter binding or depolarization of the cell.