Electrode potentials

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Created by
Jeremiah

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  • A half cell is when a rod of metal (electrode) is dipped into a solution of its own ions, an equilibrium is set up
  • Electrochemical cell
    Formed when two half cells are joined together with a wire, a high resistance voltmeter and a salt bridge
    • It's a redox process
    • One half cell is oxidised and the other is reduced
    • The more reactive metal is (the one that looses electrons more easily ) the half cell which undergoes oxidation
    • The half cell that undergoes reduction contains the less reactive metal
    • The salt bridge is made of KNO3 and it allows ions to flow between the half cell and balance the charges
  • Some half-cells don't contain solid metal so a platinum electrode is used as its inert but will conduct electricity
  • Conditions required
    • 298k
    • All solutions at 1.00 moldm^-3
    • Any gases at 100kPa
    These will get the same values and can be used to compare cells
  • An electrochemical cell can be represented in a shorthand way by a cell diagram called the conventional representation or standard cell diagram
  • Standard cell diagram
    Label the diagram
    A) Phase change
    B) Phase change
    C) Salt bridge
    D) Oxidised
    E) Reduced
    F) mix
  • The standard hydrogen electrode by definition has a e.m.f potential difference of 0v ( 0 volts)
  • Label diagram
    A) H2 gas
    B) 100 kPa
    C) 298k
    D) left
    E) Platinum electrode
  • If a substance is in the same phase e.g. Fe2+ and Fe3+ then when writing the cell diagram they would be separated using a comma
  • Label the diagram
    A) Salt bridge
    B) Platinum
    C) |
    D) ||
    E) ,
    F) |
    G) Pt(s)
  • The reaction with the most negative electrode potential is the better reducing agent ( so more likely to be oxidised)
  • The best reducing agent is the one species that looses electrons easily
  • Electrode potentials that are negative potential values of E°/v are better at releasing electrons (better reducing agents) than hydrogen
  • Changing conditions (temp, pressure or conc)
    Would cause equilibrium to shift, producing more electrons causing the electrode potential to be more negative
  • Ecell = E°(RHS) - E° (LHS)
    This is used to calculate the e.m.f
  • For a reaction to be feasible the Ecell must be positive