Non-Standard Conditions (CIE A Level Chemistry)

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Effect of Concentration on Electrode Potential

  • Changes in temperature and concentration of aqueous ions will affect the standard electrode potential (E) of a half-cell
  • Under these non-standard conditions, E is used as a symbol for the electrode potential instead of E 

Increasing the concentration of the species on the left

  • If the concentration of the species on the left is increased, the position of equilibrium will shift to the right
  • This means that the species on the left gets more easily reduced
  • The E value becomes more positive (or less negative)
  • Let’s look at the half-cell below as an example

Zn2+ (aq) + 2e- ⇌ Zn (s)        E= -0.76 V

  • If the concentration of Zn2+ (species on the left) is increased, the equilibrium position will shift to the right
  • The species on the left (Zn2+) will get more easily reduced
  • Therefore, the E value becomes less negative and will change too, for example, -0.50 V instead
  • This principle can also be applied to a half-cell with a positive Evalue such as:

Fe3+ (aq) + e- ⇌ Fe2+ (aq)        E = +0.77 V

  • If the concentration of Fe3+ (species on the left) is increased, the equilibrium position will shift to the right
  • The species on the left (Fe3+) will get more easily reduced
  • Therefore, the E value becomes more positive and will change too, for example, +0.89 V instead

Increasing the concentration of species on the right

  • If the concentration of the species on the right is increased, the position of equilibrium will shift to the left
  • This means that the species on the left get less easily reduced
  • The E value becomes less positive (or more negative)
  • Let’s look again at the half-cell below

Zn2+ (aq) + 2e- ⇌ Zn (s)        E= -0.76 V

  • If the concentration of Zn (species on the right) is increased, the equilibrium position will shift to the left
  • The species on the left (Zn2+) will get less easily reduced
  • Therefore, the E value becomes more negative and will change too, for example, -0.82 V instead
  • This principle can, again, also be applied to a half-cell with a positive Evalue:

Fe3+ (aq) + e- ⇌ Fe2+ (aq)        E = +0.77 V

  • If the concentration of Fe2+ (species on the right) is increased, the equilibrium position will shift to the left
  • The species on the left (Fe3+) will get less easily reduced
  • Therefore, the E value becomes less positive and will change too, for example, +0.56 V instead

Effect of concentration on the electrode potential

Effect of Concentration on Electrode Potential, downloadable AS & A Level Chemistry revision notes

Summarising the effects of changing the concentration of reactants and products

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Richard

Author: Richard

Expertise: Chemistry

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.