Figure 1 represents the cell used to measure the standard electrode potential for the Fe2+/Fe electrode - AQA - A-Level Chemistry - Question 3 - 2019 - Paper 3

The purpose of the salt bridge is to complete the circuit by allowing ions to flow between the two half-cells while maintaining electrical neutrality.

Electrode B is typically represented by a platinum electrode.

| C | Dilute HCl (1 mol dm^-3) | | D | Platinum electrode (inert) | | E | Hydrogen gas at 1 atm and 298 K |

The ionic equation is: $ext{Fe}^{2+} + 2 ext{e}^- \rightleftharpoons \text{Fe}$

The change needed is to connect a voltmeter to measure the potential and possibly to increase the concentration of the Fe2+ ions if they are consumed.

For experiment 4, the missing value for [Zn2+] is 0.10 mol dm^-3 and Ecell is 1.04 V.

Ensure you correctly label your axes with Ecell (V) and ln([Zn2+]/[Cu2+]).

The gradient, m, of the line is approximately -0.013 V.

Using the gradient in the equation, $E_{cell} = (-4.3 × 10^{-5} × T) + E°_{cell}$, we can rearrange to find T. Given the gradient, T can be calculated as approximately 302 K.

The electrode potential of the Zn2+/Zn electrode is calculated to be -0.80 V.

The reason for the difference is likely due to deviations from standard conditions or concentration variances when compared to the standard electrode potential.