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the standard cell potential is the cell potential at standard conditions (25C , 1 atm , and 1M ) but the cell potential is the cell potential of the cell under a real condition and we use nernst equation . i hope this is useful
The potential of a cell can decrease if the concentrations of the solutions are less than 1.0M.N.B. The standard conditions for a galvanic cell involve the concentration of the solutions being 1.0M.
more positive than the other half-cell
more positive than the other half-cell
The germ cell potential of the female is much smaller than that of the male. The total germ cell potential is predetermined.
the standard cell potential is the cell potential at standard conditions (25C , 1 atm , and 1M ) but the cell potential is the cell potential of the cell under a real condition and we use nernst equation . i hope this is useful
3.51 v
0.92 v
1.49 v
Pair it with a hydrogen half cell
The potential of a cell can decrease if the concentrations of the solutions are less than 1.0M.N.B. The standard conditions for a galvanic cell involve the concentration of the solutions being 1.0M.
more positive than the other half-cell
more positive than the other half-cell
It depends on the electron configuration. Different metals have single electrode potential. They are both +ve and -ve. We use standard Hydrogen electrode whose potential is taken to be 0. Using that we can find half potential. Then right from that we get the total potential of a cell. So it is all natures work
resting potential
All cells have internal resistance. The value is very small when the cell is fresh. The value increases slightly and slowly as the cell discharges. So the potential difference across the cell will not noticeably change when a load is initially connected. As the cell becomes more discharged, the drop in potential difference upon connecting a load will increase. The point at which the cell is no longer any use depends on the minimum voltage which the load requires, and the current required by it.
To provide the electric potential difference required to get a current flowing through the bulb and the torch to produce light.