The cell potential can be predicted through the use of electrode potentials ( the voltages of each half-cell ).
12.
The summating potential, a stimulus-related hair cell potential, was first described by Tasaki and colleagues in 1954.
13.
Since the electrochemical potential of is identical to that of, the cell potential is similar to that of lithium-ion.
14.
The cell potential is then calculated as the sum of the reduction potential for the cathode and the oxidation potential for the anode.
15.
In the 20th century German chemist Walther Nernst proposed a mathematical model to determine the effect of reactant concentration on electrochemical cell potential.
16.
The cell potential needed to make the transition between two states is where this vertical line crosses a region border on the graph.
17.
If the second electrode is also at standard conditions, then the measured cell potential is called the standard electrode potential for the electrode.
18.
A standard cell potential can be determined by looking up the standard electrode potentials for both electrodes ( sometimes called half cell potentials ).
19.
A standard cell potential can be determined by looking up the standard electrode potentials for both electrodes ( sometimes called half cell potentials ).
20.
Measuring instruments based on the half-cell potential can detect the potential corrosion spots before total failure of the concrete structure is reached.
