MnO4- (aq) is the most powerful oxidising agent due to its high oxidation state of manganese, allowing it to readily accept electrons compared to the other options listed.

Which change to a hydrogen electrode has no effect on the electrode potential?

The surface area of the platinum electrode does not affect the electrode potential because it does not change the concentration of reactants or products in the electrochemical reaction, unlike the other factors listed.

Use the data in the table below to answer this question. Which one of the following statements is not correct?

Fe2+(aq) cannot reduce Cr3+(aq) to Cr2+(aq) because Cr3+ is already in a lower oxidation state than Cr2+. Therefore, this statement is incorrect.

In the cell, zinc has a lower reduction potential than lead, meaning zinc will oxidize and lose electrons. Therefore, electrons travel from zinc to lead in the external circuit.

The EMF of the cell is calculated using EΘ(cell) = EΘ(cathode) - EΘ(anode). Here, Cu is the cathode (+0.34 V) and Fe is the anode (-0.44 V). Thus, EMF = 0.34 - (-0.44) = 0.34 + 0.44 = +0.78 V.

Which ion cannot catalyse the reaction between iodide (I^–) and peroxodisulfate (S₂O₈^2–)?

Use the data below to help you answer this question.

Cr²⁺ cannot catalyse the reaction because it does not effectively participate in redox reactions with iodide and peroxodisulfate, unlike Co²⁺, Fe²⁺, and Fe³⁺, which can facilitate electron transfer.

In this cell, Ag+ ions oxidize metallic copper, meaning copper loses electrons while Ag+ gains them. This confirms that metallic copper is oxidized by Ag+ ions, making this statement correct.