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HL Paper 2

Magnesium is a group 2 metal which exists as a number of isotopes and forms many compounds.

Magnesium ions produce no emission or absorption lines in the visible region of the electromagnetic spectrum. Suggest why most magnesium compounds tested in a school laboratory show traces of yellow in the flame.

[1]

(i) Explain the convergence of lines in a hydrogen emission spectrum.

(ii) State what can be determined from the frequency of the convergence limit.

[2]

Magnesium chloride can be electrolysed.

(i) Deduce the half-equations for the reactions at each electrode when molten magnesium chloride is electrolysed, showing the state symbols of the products. The melting points of magnesium and magnesium chloride are 922K and 987K respectively.

(ii) Identify the type of reaction occurring at the cathode (negative electrode).

(iii) State the products when a very dilute aqueous solution of magnesium chloride is electrolysed.

[5]

Standard electrode potentials are measured relative to the standard hydrogen electrode. Describe a standard hydrogen electrode.

[2]

A magnesium half-cell, Mg(s)/Mg²⁺(aq), can be connected to a copper half-cell, Cu(s)/Cu²⁺(aq).

(i) Formulate an equation for the spontaneous reaction that occurs when the circuit is completed.

(ii) Determine the standard cell potential, in V, for the cell. Refer to section 24 of the data booklet.

(iii) Predict, giving a reason, the change in cell potential when the concentration of copper ions increases.

[4]

Chlorine undergoes many reactions.

$2.67 g$ of manganese(IV) oxide was added to $200.0 {cm}^{3}$ of $2.00 mol {dm}^{- 3} HCl$ .

${MnO}_{2} (s) + 4 HCl (aq) \to {Cl}_{2} (g) + 2 H_{2} O (l) + {MnCl}_{2} (aq)$

Chlorine gas reacts with water to produce hypochlorous acid and hydrochloric acid.

${Cl}_{2} (g) + H_{2} O (l) ⇌ HClO (aq) + HCl (aq)$

${CCl}_{2} F_{2}$ is a common chlorofluorocarbon, $CFC$ .

State the full electron configuration of the chlorine atom.

[1]

a(i).

State, giving a reason, whether the chlorine atom or the chloride ion has a larger radius.

[1]

a(ii).

Outline why the chlorine atom has a smaller atomic radius than the sulfur atom.

[2]

a(iii).

The mass spectrum of chlorine is shown.

Outline the reason for the two peaks at $m / z = 35$ and $37$ .

[1]

a(iv).

Explain the presence and relative abundance of the peak at $m / z = 74$ .

[2]

a(v).

Calculate the amount, in $mol$ , of manganese(IV) oxide added.

[1]

b(i).

Determine the limiting reactant, showing your calculations.

[2]

b(ii).

Determine the excess amount, in $mol$ , of the other reactant.

[1]

b(iii).

Calculate the volume of chlorine, in ${dm}^{3}$ , produced if the reaction is conducted at standard temperature and pressure (STP). Use section 2 of the data booklet.

[1]

b(iv).

State the oxidation state of manganese in ${MnO}_{2}$ and ${MnCl}_{2}$ .

[2]

b(v).

Deduce, referring to oxidation states, whether ${MnO}_{2}$ is an oxidizing or reducing agent.

[1]

b(vi).

Hypochlorous acid is considered a weak acid. Outline what is meant by the term weak acid.

[1]

c(i).

State the formula of the conjugate base of hypochlorous acid.

[1]

c(ii).

Calculate the concentration of $H^{+} (aq)$ in a $HClO (aq)$ solution with a $pH = 3.61$ .

[1]

c(iii).

State the type of reaction occurring when ethane reacts with chlorine to produce chloroethane.

[1]

d(i).

Predict, giving a reason, whether ethane or chloroethane is more reactive.

[1]

d(ii).

Explain the mechanism of the reaction between chloroethane and aqueous sodium hydroxide, $NaOH (aq)$ , using curly arrows to represent the movement of electron pairs.

[3]

d(iii).

Ethoxyethane (diethyl ether) can be used as a solvent for this conversion.
Draw the structural formula of ethoxyethane

[1]

d(iv).

Deduce the number of signals and chemical shifts with splitting patterns in the ¹H NMR spectrum of ethoxyethane. Use section 27 of the data booklet.

[3]

d(v).

Calculate the percentage by mass of chlorine in ${CCl}_{2} F_{2}$ .

[2]

e(i).

Comment on how international cooperation has contributed to the lowering of $CFC$ emissions responsible for ozone depletion.

[1]

e(ii).

$CFC$ s produce chlorine radicals. Write two successive propagation steps to show how chlorine radicals catalyse the depletion of ozone.

[2]

e(iii).

Nickel catalyses the conversion of propanone to propan-2-ol.

Outline how a catalyst increases the rate of reaction.

[1]

Explain why an increase in temperature increases the rate of reaction.

[2]

Discuss, referring to intermolecular forces present, the relative volatility of propanone and propan-2-ol.

[3]

The diagram shows an unlabelled voltaic cell for the reaction

${Pb}^{2 +} (aq) + Ni (s) \to {Ni}^{2 +} (aq) + Pb (s)$

Label the diagram with the species in the equation.

[1]

d(i).

Calculate the standard cell potential, in $V$ , for the cell at $298 K$ . Use section 24 of the data booklet

[1]

d(ii).

Calculate the standard free energy change, $∆ G^{⦵}$ , in $kJ$ , for the cell using sections 1 and 2 of the data booklet.

[1]

d(iii).

Suggest a metal that could replace nickel in a new half-cell and reverse the electron flow. Use section 25 of the data booklet.

[1]

d(iv).

Describe the bonding in metals.

[2]

d(v).

Nickel alloys are used in aircraft gas turbines. Suggest a physical property altered by the addition of another metal to nickel.

[1]

d(vi).