| 1. | The difference between the two electrode potentials equals the cell potential.
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| 2. | A positive cell potential gives a negative change in Gibbs free energy.
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| 3. | Cell potentials have a possible range of roughly zero to 6 volts.
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| 4. | A primary ATPase universal to all animal life is the cell potential.
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| 5. | Higher cell potentials are possible with cells using other solvents instead of water.
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| 6. | The electrolyte concentration is given as it is an important variable in determining the cell potential.
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| 7. | The cell potential depends on the concentration of the reactants, as well as their type.
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| 8. | The cell membrane is cell potential.
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| 9. | When reactant concentrations differ from standard conditions, the cell potential will deviate from the standard potential.
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| 10. | As the cell is discharged, the concentration of the reactants decreases, and the cell potential also decreases.
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