Figure 1 represents the cell used to measure the standard electrode potential for the Fe³⁺/Fe²⁺ electrode - AQA - A-Level Chemistry - Question 3 - 2019 - Paper 3

The purpose of the salt bridge is to complete the circuit by allowing ionic flow between the two half-cells, which prevents charge buildup.

Electrode B in Figure 1 is made of platinum (Pt), which is commonly used for its inertness and good conductivity in electrochemical cells.

C - HCl, Conditions: 1 mol dm^-3 concentration D - **H₂, Conditions: 100 kPa pressure E - **Fe³⁺/Fe²⁺, Conditions: 1 mol dm^-3 concentration

The ionic equation for the overall reaction is:

To allow the cell reaction to go to completion, it is necessary to remove the Fe²⁺ ions from the solution as they are produced.

For experiment 4, the missing value can be calculated using the provided data in Table 2.

To plot the graph, identify the E_cell values from Table 2 and the corresponding natural logarithm of the concentration ratios. Mark the points accurately on the grid as per the given values.

The gradient, based on the plotted values, can be calculated to be approximately -0.013 V, indicating the relationship between the concentrations and the cell potential.

To find the temperature, use the equation: $E_{cell} = - (4.3 × 10^{-5} imes T) + E_{cell}$
Solving for T using the given values gives T = 302 °C = 575 K.

The electrode potential for the Zn²⁺/Zn electrode can be calculated using the Nernst equation based on the data from experiment 2 in Table 2.

The calculated value may differ from the standard electrode potential due to concentration variations and non-ideal behavior of the solutions under the experimental conditions.