4.3.4 Electrolysis of aqueous solutions

Cards (63)

  • What is the definition of electrolysis?
    Using electricity to break down compounds
  • Which state of an electrolyte has high electrical conductivity?
    Molten or aqueous
  • Why is an electrolyte necessary for electrolysis?
    To conduct electricity
  • The anode and cathode are connected to a power supply
  • What are the two electrodes in an electrolytic cell?
    Anode and cathode
  • The most reactive ions are discharged first during electrolysis.

    True
  • What is the process called that uses electricity to break down compounds into their constituent elements or ions?
    Electrolysis
  • The electrolyte in an electrolytic cell contains ions that can move and conduct electricity
  • Electrolysis can occur only when a substance is in a molten state.
    False
  • The anode is the electrode where reduction occurs.
    False
  • Molten sodium chloride has high electrical conductivity.

    True
  • What is the process that occurs at the anode during electrolysis?
    Oxidation
  • What is an example of an electrolyte in a molten state?
    Sodium chloride
  • Which electrode in an electrolytic cell is where oxidation occurs?
    Anode
  • What happens to positively charged ions at the anode during electrolysis?
    They lose electrons
  • Match the type of electrolyte with its characteristic reaction at the anode:
    Aqueous ↔️ Water molecules are oxidized
    Molten ↔️ Desired ions are discharged
  • In an aqueous NaCl solution, why is hydrogen gas produced at the cathode instead of sodium?
    Hydrogen is less reactive
  • What effect does higher voltage have on ion discharge?
    Discharges less reactive ions
  • Ionic equations for electrolytic reactions indicate the number of electrons transferred
  • Ionic equations help understand how electrolysis breaks down compounds into their constituent elements.
    True
  • Which gas is produced at the cathode in an aqueous NaCl solution due to the lower reactivity of H⁺ ions compared to Na⁺?
    Hydrogen gas
  • Ions in the electrolyte must move freely to conduct electricity.
    True
  • Negatively charged ions are attracted to the anode during electrolysis.
    False
  • What is the main difference between molten electrolytes and aqueous electrolytes in electrolysis?
    No competition from water
  • What effect does higher concentration have on ion discharge during electrolysis?
    Faster discharge
  • Ionic equations for electrolytic reactions show the number of electrons transferred.

    True
  • Match the electrolyte with its anode and cathode reactions:
    Molten NaCl ↔️ 2Cl⁻ → Cl₂ + 2e⁻ at anode, Na⁺ + e⁻ → Na at cathode
    Aqueous CuSO₄ ↔️ 2H₂O → O₂ + 4H⁺ + 4e⁻ at anode, Cu²⁺ + 2e⁻ → Cu at cathode
  • A higher applied voltage can force less reactive ions to discharge
  • At the cathode, negatively charged ions gain electrons during electrolysis.

    True
  • What gas is often produced at the cathode in aqueous electrolysis due to the reduction of water?
    Hydrogen
  • The cathode reaction in molten NaCl is Na⁺ + e⁻ → Na
  • In an aqueous NaCl solution, hydrogen ions are more reactive than sodium ions.
    False
  • Match the electrolyte with its anode and cathode reactions:
    Molten NaCl ↔️ 2Cl⁻ → Cl₂ + 2e⁻ (anode), Na⁺ + e⁻ → Na (cathode)
    Aqueous CuSO₄ ↔️ 2H₂O → O₂ + 4H⁺ + 4e⁻ (anode), Cu²⁺ + 2e⁻ → Cu (cathode)
  • The three main factors influencing ion discharge during electrolysis are reactivity, concentration, and applied voltage
  • Electrolysis occurs when an electric current passes through an electrolyte
  • In an electrolytic cell, oxidation occurs at the anode
  • During electrolysis, positively charged ions lose electrons at the anode
  • The reactivity and concentration of ions in the electrolyte influence which ions are discharged at the anode
  • Higher applied voltage can force less reactive ions to discharge
  • What is the anode reaction in the electrolysis of molten NaCl?
    2Cl⁻ → Cl₂ + 2e⁻