The sum of these potentials is the standard cell potential or voltage.

An important note with this is that the cell potential does not change when the reaction is multiplied.

These include insights into such problems as the tissue specific requirements of a gene, cell lineage, and cell potential.

The half cell standard potential is given by:

This results in a significant decrease in the reversible cell potential (and, therefore, the electric power requirement) for reaction (2).

The electrolyte concentration is given as it is an important variable in determining the cell potential.

To allow prediction of the cell potential, tabulations of standard electrode potential are available.

As shown in the previous section, the change in Gibbs free energy for an electrochemical cell can be related to the cell potential.

Instead, the measured cell potential can be written as:

The membrane also maintains the cell potential.