A LevelChemistryCIETopic Questions35. Polymerisation (AL)35.2 Predicting the Type of Polymerisation

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First teaching 2023

First exams 2025

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Predicting the Type of Polymerisation (CIE A Level Chemistry)

Topic Questions

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1a1 mark

Glyolic acid is the simplest and only aliphatic monomer needed to form the polymer polyglyolic acid, PGA. The structure of glyolic acid is shown in Fig. 1.1.

glyolic-acid

Fig. 1.1

Give the systematic name of glyolic acid.

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1b1 mark

State of the type of polymerisation involved in the formation of PGA and identify the functional group that forms between the monomers.

type of polymerisation .......................................................................................................

functional group .................................................................................................................

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1c2 marks

Draw a short length of the PGA polymer chain, including a minimum of two monomer residues, with all bonds fully displayed.

Label one repeat unit of polyglyolic acid on your diagram.

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1d1 mark

Predict whether PGA is biodegradable. Explain your answer.

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2a1 mark

The structure of dehydroalanine, shown in Fig. 2.1, makes it an unusual amino acid.

CPFsSSXJ_dehydroalanine-sketchFig. 2.1

Name the functional group, in dehydroalanine, that is not common to other amino acids.

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2b1 mark

Draw one repeat unit of the addition polymer formed by dehydroalanine.

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2c2 marks

Dehydroalanine does not easily form a condensation polymer because of the alkene functional group.

The addition of hydrogen to dehydroalanine produces alanine, CH3CH(NH2)COOH. Alanine is easily able to form a condensation polymer.

Draw two repeat units of the condensation polymer formed by alanine. The new functional group formed should be displayed. 

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3a2 marks

Glycine and serine are amino acids with the systematic names 2-aminoethanoic acid and 2-amino-3-hydroxypropanoic acid respectively.

Draw the structures of glycine and serine.

 

 

 

 

 

 

 
 

 

 

 

 

 

 
 

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3b1 mark

Serine exists as a pair of optical isomers. The structure of one optical isomer is shown in Fig. 3.2.

dNqrOO-Q_serine-optical-isomer-1

Fig. 3.2

Draw the three-dimensional structure of the other optical isomer of serine.

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3c2 marks

Glycine and serine can react to form condensation polymers that contain ester and amide functional groups.

Identify the correct pairings that will separately form an ester and amide.

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