3.1.11.1 Electrode Potentials

Cards (37)

  • Standard electrode potentials are measured under standard conditions.

    True
  • Higher positive electrode potentials indicate a greater tendency to be reduced
  • What is the potential of the standard hydrogen electrode (SHE) under standard conditions?
    0.00 V
  • Higher positive electrode potentials mean a greater tendency to be reduced
  • The SHE is used as a reference electrode to measure the electrode potentials of other half-cells.

    True
  • Steps to measure electrode potentials using the SHE:
    1️⃣ Connect the half-cell of interest to the SHE using a salt bridge
    2️⃣ Use a voltmeter to measure the potential difference between the two half-cells
  • Match the electrode potential value with its interpretation:
    Higher positive potential ↔️ Greater tendency to be reduced
    Lower potential ↔️ Greater tendency to be oxidized
  • The standard hydrogen electrode (SHE) has a defined potential of 0.00 V under standard conditions.
  • Electrode potentials are measured relative to the SHE under standard conditions.
  • The standard hydrogen electrode (SHE) is assigned a potential of 0.00 V under standard conditions.
    True
  • The standard hydrogen electrode (SHE) is assigned a potential of 0.00 V
  • Components of the standard hydrogen electrode (SHE)
    1️⃣ Porous platinum coated disk
    2️⃣ Hydrogen gas at 1 atm
    3️⃣ 1 M solution of hydrogen ions
    4️⃣ Standard conditions of 298 K
  • Lower electrode potentials indicate a stronger reducing agent.

    True
  • Match the component of the SHE with its description:
    Platinum electrode ↔️ Porous platinum-coated disk
    Hydrogen gas ↔️ Bubbled through at 1 atm
    Electrolyte ↔️ 1 M solution of hydrogen ions
  • The measured potential indicates the half-cell's tendency to be reduced or oxidized compared to the SHE.

    True
  • Electrode potentials are always compared against the standard hydrogen electrode (SHE), which is assigned a potential of 0.00 V.
  • Half-cells with lower electrode potentials are stronger reducing agents.

    True
  • Steps to measure electrode potentials using the SHE:
    1️⃣ Connect the half-cell of interest to the SHE using a salt bridge
    2️⃣ Use a voltmeter to measure the potential difference between the two half-cells
  • What does a higher positive electrode potential indicate compared to the SHE?
    Stronger oxidizing agent
  • The cell potential is calculated by subtracting the E° of the oxidation half-reaction from the E° of the reduction half-reaction.
  • Elevated temperatures always favor reduction in electrode reactions.
    False
  • Electrode potentials measure the tendency of a half-cell to gain electrons
  • Match the standard conditions with their values:
    Temperature ↔️ 298 K (25°C)
    Pressure ↔️ 1 atm (101.3 kPa)
    Concentration of ions ↔️ 1 M
  • Lower electrode potentials indicate a stronger reducing agent.

    True
  • The SHE is used to measure the electrode potentials of other half-cells.

    True
  • The standard hydrogen electrode (SHE) is assigned an electrode potential of 0.00 V under standard conditions.
  • Electrode potentials are measured relative to the SHE, which is assigned a potential of 0.00 V under standard conditions.
  • The standard electrode potentials of half-cells indicate their relative reducing or oxidizing power compared to the SHE.
  • Higher positive electrode potentials indicate stronger oxidizing agents.
    True
  • Match the component of the SHE with its description:
    Platinum electrode ↔️ Porous platinum-coated disk
    Hydrogen gas ↔️ Bubbled through at 1 atm
    Electrolyte ↔️ 1 M solution of hydrogen ions
  • Connect the half-cell of interest to the SHE using a salt bridge
  • Match the electrode potential with its interpretation:
    Positive (+) ↔️ Greater tendency to be reduced
    Negative (-) ↔️ Greater tendency to be oxidized
  • What is the cell potential of a cell with a reduction half-reaction of Cu<sup>2+</sup> + 2e<sup>-</sup> → Cu (E° = +0.34 V) and an oxidation half-reaction of Zn → Zn<sup>2+</sup> + 2e<sup>-</sup> (E° = -0.76 V)?
    +1.10 V
  • What does the Nernst Equation quantify?
    Factors affecting electrode potentials
  • The cell potential of an electrochemical cell is measured under standard conditions.
    True
  • Higher ion concentrations generally shift the equilibrium towards reduction
  • Faraday's constant (F) has a value of 96,485 C/mol.