Proton-motive force
The force established by a proton gradient; the mechanism by which energy released in respiration reactions is stored before being converted to chemical energy in the form of ATP.
I never heard about a "proton motive force", so I don't think that's a common term in physics. Electrostatic forces will act on a proton, since it has an electric charge. So will gravity, since it has mass.In general, a force will result in an acceleration.
The force required to remove an electron from hydrogen.
The difference between potential difference and electro motive force is that potential difference never remains constant whereas the electro motive force always stays constant.
An Electro Motive Force "EMF".
Electrostatic force
When current is applied to the primary side, electromotive force is induced in it. It generates magneto-motive force in the core. magneto-motive force generates flux in the core. This flux links with secondary side winding and generates electromotive force in the secondary side according to secondary side turns.
no, but rotation can produce centripetal force
Proton Motive Force (H+)
This is a force generated by complex H+ flow back into the matrix (across the inner membrane) via the proton translator domain.
Hydrogen ions flow back down their gradient through a channel in an ATP synthase. The ATP synthase harnesses the proton-motive force to phosphorylate ADP, forming ATP.Read more: How_does_chemiosmosis_produce_ATP
the proton-motive force across the inner mitochondrial membrane.
The chemiosmotic hypothesis claims electron transport chains generate ATP indirectly, by the creation of a proton-motive force.
The electron gradient created by the electron transport chain flows from the inner membrane space to the matrix through the ATP synthase which captures energy from the proton motive force to create lots of ATP in oxadative phosphorylation.
motive force for the vandal of carthage in north africa.
around the megnet genrated field its call magneto motive force
proton
The Electromagnetic Force.
Electron Transport Chain. Molecules which carry electrons between photosystems, to build the hydrogen ion gradient to make ATP.
The difference between potential difference and electro motive force is that potential difference never remains constant whereas the electro motive force always stays constant.