Learners performed an experiment to determine the electrode potential of an electrochemical cell under standard conditions - NSC Technical Sciences - Question 6 - 2023 - Paper 2

The balanced net ionic reaction for the cell is:

$Mg(s) + Zn^{2+}(aq) \rightarrow Mg^{2+}(aq) + Zn(s)$

The SO4^2- ions will migrate from Zn to Mg.

The cell reaction is spontaneous, as it has a positive cell potential.

The electromotive force (emf) of the cell can be calculated using the standard reduction potentials:

$E_{cell} = E_{cathode} - E_{anode}$

Given:

• $E_{cathode} = -2.36V$ (for Mg)
• $E_{anode} = -0.76V$ (for Zn)

Calculating gives:

$E_{cell} = -0.76 - (-2.36) = 1.60V$

The name of component A is the salt bridge.

No, the light bulb will not glow.

The light bulb will not glow because component A, the salt bridge, is responsible for maintaining the flow of ions between the two half-cells. Its removal interrupts the circuit, preventing current flow and thus the bulb will not light up.