(i) State the name, applying IUPAC rules, of compound A.

(ii) Draw a section, showing three repeating units, of the polymer that can be formed from compound A.

(iii) Compound A is flammable. Formulate the equation for its complete combustion.

Compound B is related to compound A.

(i) State the term that is used to describe molecules that are related to each other in the same way as compound A and compound B.

(ii) Suggest a chemical test to distinguish between compound A and compound B, giving the observation you would expect for each.

Test:

Observation with A:

Observation with B:

(iii) Spectroscopic methods could also be used to distinguish between compounds A and B.

Predict one difference in the IR spectra and one difference in the ¹H NMR spectra of these compounds, using sections 26 and 27 of the data booklet.

IR spectra:

¹H NMR spectra:

A sample of compound A was prepared in which the ¹²C in the CH₂ group was replaced by ¹³C.

(i) State the main difference between the mass spectrum of this sample and that of normal compound A.

(ii) State the structure of the nucleus and the orbital diagram of ¹³C in its ground state.

Draw a 1s atomic orbital and a 2p atomic orbital.

(i)
methylpropene

(ii)
−CH₂−C(CH₃)₂−CH₂−C(CH₃)₂−CH₂−C(CH₃)₂−

Must have continuation bonds at both ends.

Accept any orientation of the monomers, which could give methyl side-chains on neighbouring atoms etc.

(iii)
C₄H₈ (g) + 6O₂ (g) → 4CO₂ (g) + 4H₂O(l)

(i)
«structural/functional group» isomer«s»

(i)
«molecular ion» peak at «m/z =» 57, «not 56»
OR
«molecular ion» peak at one «m/z» higher
OR
will not have a «large» peak at 56

Accept p orbitals aligned on y− and z−axes, or diagrams correctly showing all three p-orbitals.
Do not accept p-orbitals without a node.