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SL Paper 2

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

State the nuclear symbol notation, ${}_Z^AX$ , for magnesium-26.

[1]

Mass spectroscopic analysis of a sample of magnesium gave the following results:

Calculate the relative atomic mass, A_r, of this sample of magnesium to two decimal places.

[2]

Magnesium burns in air to form a white compound, magnesium oxide. Formulate an equation for the reaction of magnesium oxide with water.

[1]

Describe the trend in acid-base properties of the oxides of period 3, sodium to chlorine.

[2]

In addition to magnesium oxide, magnesium forms another compound when burned in air. Suggest the formula of this compound

[1]

Describe the structure and bonding in solid magnesium oxide.

[2]

Magnesium chloride can be electrolysed.

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 922 K and 987 K respectively.

Anode (positive electrode):

Cathode (negative electrode):

[2]

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).

Write the equation for the reaction of chloroethane with a dilute aqueous solution of sodium hydroxide.

[1]

d(iii).

Deduce the nucleophile for the reaction in d(iii).

[1]

d(iv).

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

[1]

d(v).

Deduce the number of signals and their chemical shifts in the ${}_{1}H NMR$ spectrum of ethoxyethane. Use section 27 of the data booklet.

[2]

d(vi).

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).

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).

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(ii).

Describe the bonding in metals.

[2]

d(iii).

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

[1]

d(iv).

Ethane-1,2-diol, HOCH₂CH₂OH, has a wide variety of uses including the removal of ice from aircraft and heat transfer in a solar cell.

Ethane-1,2-diol can be formed according to the following reaction.

2CO (g) + 3H₂(g) $\rightleftharpoons$ HOCH₂CH₂OH (g)

(i) Deduce the equilibrium constant expression, K_c, for this reaction.

(ii) State how increasing the pressure of the reaction mixture at constant temperature will affect the position of equilibrium and the value of K_c.

Position of equilibrium:

K_c:

(iii) Calculate the enthalpy change, ΔH^θ, in kJ, for this reaction using section 11 of the data booklet. The bond enthalpy of the carbon–oxygen bond in CO (g) is 1077kJmol^-1.

(iv) The enthalpy change, ΔH^θ, for the following similar reaction is –233.8 kJ.

2CO(g) + 3H₂(g) $\rightleftharpoons$ HOCH₂CH₂OH (l)

Deduce why this value differs from your answer to (a)(iii).

[7]

Determine the average oxidation state of carbon in ethene and in ethane-1,2-diol.

Ethene:

Ethane-1,2-diol:

[2]

Explain why the boiling point of ethane-1,2-diol is significantly greater than that of ethene.

[2]

Ethane-1,2-diol can be oxidized first to ethanedioic acid, (COOH)₂, and then to carbon dioxide and water. Suggest the reagents to oxidize ethane-1,2-diol.

[1]