User interface language: English | Español

Date May 2014 Marks available 1 Reference code 14M.3.hl.TZ2.3
Level HL Paper 3 Time zone TZ2
Command term Deduce Question number 3 Adapted from N/A

Question

Compound X has the molecular formula \({{\text{C}}_{\text{3}}}{{\text{H}}_{\text{6}}}{{\text{O}}_{\text{3}}}\) and is found in human perspiration.

Its infrared (IR) spectrum is represented below.

M14/4/CHEMI/HP3/ENG/TZ2/03.a

Deduce the bonds responsible for the absorptions labelled I and II.

 

I:

 

II:

[1]
a.

The \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) spectrum recorded showed four peaks with the following chemical shift values (in ppm):

M14/4/CHEMI/HP3/ENG/TZ2/03.b

The integration trace for A:B:C:D was found to be 1:1:1:3.

Deduce what information can be obtained about the hydrogen atoms responsible for peak D at 1.2 ppm from the integration trace in the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) spectrum of X.

[1]
b.

Deduce the fragments in the mass spectrum which correspond to the following \(m{\text{/}}z\) values.

 

\(m{\text{/}}z = 45\):

 

\(m{\text{/}}z = 17\):

 

\(m{\text{/}}z = 15\):

 

[2]
c.

Deduce the structural formula of X.

[1]
d.

Y is an isomer of X, which contains the same functional groups. Deduce the structural formula of Y.

[1]
e.

(i)     Like X, 3-methylbutanoic acid is also a source of body odour. Deduce the \(m{\text{/}}z\) value for the molecular ion peak on the mass spectrum of this compound.

 

 

(ii)     Ethyl propanoate (ethyl propionate) is an isomer of 3-methylbutanoic acid. Its \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) spectrum consists of four peaks.

Deduce the ratios of the areas under each peak in the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) spectrum of ethyl propanoate. For each peak, deduce the range of chemical shift values (in ppm), using Table 18 of the Data Booklet, and predict the splitting pattern.

M14/4/CHEMI/HP3/ENG/TZ2/03.f

[4]
f.

Markscheme

I: O–H and II: C=O;

Do not allow CO for C=O.

Allow OH for O–H.

a.

three hydrogens in same (chemical) environment / CH3/methyl (group);

b.

Award [2] for all three correct, [1] for any two correct.

\(m{\text{/}}z = 45\):

\({\text{COO}}{{\text{H}}^ + }/{\text{C}}{{\text{O}}_2}{{\text{H}}^ + }/{{\text{C}}_2}{{\text{H}}_5}{{\text{O}}^ + }\);

\(m{\text{/}}z = 17\):

\({\text{O}}{{\text{H}}^ + }\);

\(m{\text{/}}z = 15\):

\({\text{CH}}_3^ + \);

Penalize missing + once only.

c.

\({\text{C}}{{\text{H}}_{\text{3}}}{\text{CH(OH)COOH}}/{\text{C}}{{\text{H}}_{\text{3}}}{\text{CH(OH)C}}{{\text{O}}_{\text{2}}}{\text{H}}\);

Allow full or condensed structural formula.

d.

\({\text{C}}{{\text{H}}_2}{\text{(OH)C}}{{\text{H}}_2}{\text{COOH}}/{\text{HO(C}}{{\text{H}}_2}{{\text{)}}_2}{\text{COH}}\);

Allow full or condensed structural formula.

e.

(i)     102;

(ii)     M14/4/CHEMI/HP3/ENG/TZ2/03.f.ii/M

Award [3 max] for four correct rows.

Award [2 max] for any two or three correct rows and [1 max] for any correct row.

f.

Examiners report

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

a.

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

b.

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

c.

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

d.

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

e.

There were good answers to Q3 but the usual errors were encountered, such as the omission of a positive charge on mass spectrum fragments. Many were able to deduce the structure of the lactic acid although an ether was a common suggestion. It was disappointing to note that many candidates could not provide the correct \(m{\text{/}}z\) value for 3-methylbutanoic acid. Candidates found the \(^{\text{1}}{\text{H}}\,{\text{NMR}}\) information difficult although most candidates managed to give one line correctly.

f.

Syllabus sections

Core » Topic 10: Organic chemistry » 10.1 Fundamentals of organic chemistry
Show 183 related questions

View options