Date | May 2021 | Marks available | 1 | Reference code | 21M.2.hl.TZ1.3 |
Level | HL | Paper | 2 | Time zone | TZ1 |
Command term | State | Question number | 3 | Adapted from | N/A |
Question
Magnetite, Fe3O4, is another ore of iron that contains both Fe2+ and Fe3+.
Iron exists as several isotopes.
Deduce the ratio of Fe2+:Fe3+ in Fe3O4.
State the type of spectroscopy that could be used to determine their relative abundances.
State the number of protons, neutrons and electrons in each species.
Iron has a relatively small specific heat capacity; the temperature of a 50 g sample rises by 44.4°C when it absorbs 1 kJ of heat energy.
Determine the specific heat capacity of iron, in J g−1 K−1. Use section 1 of the data booklet.
A voltaic cell is set up between the Fe2+ (aq) | Fe (s) and Fe3+ (aq) | Fe2+ (aq) half-cells.
Deduce the equation and the cell potential of the spontaneous reaction. Use section 24 of the data booklet.
The figure shows an apparatus that could be used to electroplate iron with zinc. Label the figure with the required substances.
Outline why, unlike typical transition metals, zinc compounds are not coloured.
Transition metals like iron can form complex ions. Discuss the bonding between transition metals and their ligands in terms of acid-base theory.
Markscheme
1:2 ✔
Accept 2 Fe3+: 1 Fe2+
Do not accept 2:1 only
mass «spectroscopy»/MS ✔
Award [1 max] for 4 correct values.
specific heat capacity « = » = 0.45 «J g−1 K−1» ✔
Equation:
2Fe3+(aq) + Fe(s) → 3Fe2+(aq) ✔
Cell potential:
«+0.77 V − (−0.45 V) = +»1.22 «V» ✔
Do not accept reverse reaction or equilibrium arrow.
Do not accept negative value for M2.
left electrode/anode labelled zinc/Zn AND right electrode/cathode labelled iron/Fe ✔
electrolyte labelled as «aqueous» zinc salt/Zn2+ ✔
Accept an inert conductor for the anode.
Accept specific zinc salts such as ZnSO4.
« Zn2+» has a full d-shell
OR
does not form « ions with» an incomplete d-shell ✔
Do not accept “Zn is not a transition metal”.
Do not accept zinc atoms for zinc ions.
ligands donate pairs of electrons to metal ions
OR
forms coordinate covalent/dative bond✔
ligands are Lewis bases
AND
metal «ions» are Lewis acids ✔