A-Level AQA Chemistry The Mole, Avogadro & The Ideal Gas Equation: A student set up the cell shown

Question

A student set up the cell shown in Figure 2.

Figure 2

Copper

0.15 mol dm$^{-3}$ CuSO$_4$(aq)

Copper

1.0 mol dm$^{-3}$ CuSO$_4$(aq)

The student recorded an initial voltage of +0.16 V at 25 °C

6.1 Explain how the salt bridge provides an electrical connection between the two solutions.

6.2 The standard electrode potential for the Cu$^{2+}$/Cu electrode is

Cu$^{2+} + 2e^{-} ightleftharpoons $ Cu(s)  E$^{	heta}$ = +0.34 V

Calculate the electrode potential of the left-hand electrode in Figure 2.

Electrode potential __________ V

6.3 Both electrodes contain a strip of copper metal in a solution of aqueous Cu$^{2+}$ ions.

State why the left-hand electrode does not have an electrode potential of +0.34 V.

6.4 Give the conventional representation for the cell in Figure 2.

Include all state symbols.

6.5 When the voltmeter is replaced by a bulb, the EMF of the cell in Figure 2 decreases over time to 0 V.

Suggest how the concentration of copper(II) ions in the left-hand electrode changes when the bulb is alight.

Give one reason why the EMF of the cell decreases to 0 V.

Change in concentration of copper(II) ions in the left-hand electrode

Reason why the EMF decreases to 0 V

A student set up the cell shown in Figure 2 - AQA - A-Level Chemistry - Question 6 - 2018 - Paper 1