CHEMISTRY QUESTIONSHEETS A2 Level · 2020. 9. 8. · A2 TOPIC 23 ORGANIC CHEMISTRY (INTRODUCTION...

ORGANIC CHEMISTRY (INTRODUCTION AND REACTIONS)A2 TOPIC 23

QUESTIONSHEETS A2 LevelCHEMISTRY

17 marks

23 marks

16 marks

13 marks

17 marks

17 marks

16 marks

14 marks

11 marks

13 marks

18 marks

10 marks

20 marks

14 marks

16 marks

15 marks

20 marks

16 marks

17 marks

15 marks

14 marks

20 marks

17 marks

13 marks

13 marks

12 marks

11 marks

E/Z (CIS/TRANS) ISOMERISM

OPTICAL ISOMERISM

TEST QUESTION ON ISOMERISM

STRUCTURE OF BENZENE

STRUCTURES OF CYCLOALKENES

BOND TYPE AND REACTIVITY

REACTION CONDITIONS AND PRODUCT

NITRATION OF ARENES

HALOGENATION OF ARENES

ALKYLATION AND ACYLATION OF ARENES

PHENOL

ALDEHYDES AND KETONES

USE OF 2,4-DINITROPHENYLHYDRAZINE

THE TRIIODOMETHANE REACTION

GRIGNARD REAGENTS

CARBOXYLIC ACIDS I

CARBOXYLIC ACIDS II

ACYL CHLORIDES

ESTERS

NITRILES

AMIDES

AMINES

DIAZOTISATION

AMINO ACIDS

PROTEINS

TEST QUESTION I

TEST QUESTION II

Questionsheet 1

Questionsheet 2

Questionsheet 3

Questionsheet 4

Questionsheet 5

Questionsheet 6

Questionsheet 7

Questionsheet 8

Questionsheet 9

Questionsheet 10

Questionsheet 11

Questionsheet 12

Questionsheet 13

Questionsheet 14

Questionsheet 15

Questionsheet 16

Questionsheet 17

Questionsheet 18

Questionsheet 19

Questionsheet 20

Questionsheet 21

Questionsheet 22

Questionsheet 23

Questionsheet 24

Questionsheet 25

Questionsheet 26

Questionsheet 27

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17

E/Z (CIS/TRANS ISOMERISM)TOPIC 23 Questionsheet 1

a) Explain why there are two stereoisomers of pent-2-ene. Sketch their structures and name them.

Explanation ......................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

Structures and names

[4]b) Suggest why 1,2-dichlorocyclopentane can exhibit the same type of isomerism. Sketch the two structures.

Suggestion .................................................................................................................................................... [1]

Structures

[2]

c) Inspect each of the following compounds and state whether or not it can exhibit geometrical isomerism. In thelight of your answers, state what structural feature (apart from C=C) is necessary for the existence of E/Zisomers.

CH2=CHCH

2CH

3......................................................................................................................................... [1]

(CH3)

2C=CH

2............................................................................................................................................... [1]

CHCl=CHCl .................................................................................................................................................. [1]

CHCl=CHCH3

.............................................................................................................................................. [1]

CHCl=CClCH3

............................................................................................................................................. [1]

CH3CH=CClCH

2CH

3.................................................................................................................................... [1]

Structural feature .............................................................................................................................................

....................................................................................................................................................................... [1]


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OPTICAL ISOMERISM

a) (i) Draw the structures of the two stereoisomers of butan-2-ol and state how they can be distinguished inthe laboratory.

Structures

[2]

Means of distinguishing between them..................................................................................................

...................................................................................................................................................................

............................................................................................................................................................... [3]

(ii) Why is it that, although butan-2-ol can exhibit this type of isomerism, its oxidation product, butanone,does not?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

b) A chemist, who synthesised 2-hydroxypropanoic acid (lactic acid) by reacting ethanal with hydrogencyanide and then boiling the product with concentrated hydrochloric acid, reported that the 2-hydroxypropanoic acid was “an equal mixture of enantiomers”.

(i) What are enantiomers?

....................................................................................................................................................................... [1]

(ii) How did the chemist know that an equal mixture had been formed?

....................................................................................................................................................................... [1]

(iii) What name is given to such a mixture?

....................................................................................................................................................................... [1]

(iv) Explain why such a mixture is formed.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

TOPIC 23 Questionsheet 2

(Continued...)


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OPTICAL ISOMERISMTOPIC 23 Questionsheet 2 Continued

23

c) On the structures shown below, mark any chiral centre using *. There may be none or one or more centresper molecule.

H C HC C C C

H

H

HH

H H

O

H

C

H

HH

CH3

CH3

CH2

CH C

O

O H

NH2

C

H

C N H

OH

H H

CH3

HO

HO

[6]

d) L-dopa, the drug used to treat Parkinson’s disease, is a single optical isomer. Explain why pharmaceuticalcompanies choose to use medicines containing only the single isomer.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

CH2C

CH3

CH3CH

2

CH2

C CH3

H

NH2

H C C

CH2OH

N

CH2Cl

CH3CH3 C O CH2 CH2 CH CH3

O CH3

CHCl

CH2

C O

CH2

CH2

CH2


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TEST QUESTION ON ISOMERISM

16


a) “In the context of isomerism, compounds of molecular formula C4H

10O are particularly interesting, because

they can exhibit skeletal isomerism, positional isomerism, functional group isomerism and stereoisomerism.”

(i) Illustrate this statement by writing the structural formulae of suitable pairs of compounds to show eachkind of isomerism.

Skeletal isomerism

............................................................................................................................................................... [2]

Positional isomerism

............................................................................................................................................................... [2]

Functional group isomerism

............................................................................................................................................................... [2]

Stereoisomerism

[2]

(ii) Explain why it is that compounds of molecular formula C4H

10O can exhibit one kind of stereoisomerism

but not another.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

b) Butanone and phenylhydrazine react together as shown by the following equation to give butanonephenylhydrazone, a compound which exhibits stereoisomerism.

(i) What kind of stereoisomerism is shown by butanone phenylhydrazone?

....................................................................................................................................................................... [1]

(ii) Draw the structural formulae of the two stereoisomers.

[2]

(iii) State one physical property which could help you to distinguish between the stereoisomers.

....................................................................................................................................................................... [1]

C = O + H2N – NHC

6H

5 → C = N – NHC

6H

5 + H

2O

C2H

5

CH3

C2H

5

CH3


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A2 Level TOPIC 23 Questionsheet 4

13

STRUCTURE OF BENZENE

a) Cyclohexene, C6H

10, reacts with hydrogen to form cyclohexane, C

6H

12. The enthalpy of hydrogenation

is –120 kJ mol-1.

(i) Suggest the conditions that would be used for this reaction.

....................................................................................................................................................................... [1]

(ii) Give the structure of the hypothetical species cyclohexa-1,3,5-triene.

[1]

(iii) Calculate the value you would expect for the enthalpy of hydrogenation of this species.

...........................................................................................................................................................................

....................................................................................................................................................................... [1]

(iv) Benzene, C6H

6, has essentially the same formula as cyclohexa-1,3,5-triene, but its enthalpy of

hydrogenation is only –208 kJ mol-1. Comment upon the difference between this value and thatobtained in a) (iii).

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

b) The structure of benzene is said to consist of a 6-membered carbon ring, with a system of delocalisedelectrons. Although unsaturated, it exhibits different reactions from those of the alkenes.

(i) Explain the meaning of the terms delocalised and unsaturated.

Delocalised ...............................................................................................................................................

............................................................................................................................................................... [2]

Unsaturated ......................................................................................................................................... [1]

(ii) What structure would you expect benzene to have if it showed reactions similar to the alkenes?

[1]

(iii) Give three pieces of evidence that benzene does not have such a structure.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]


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STRUCTURES OF CYCLOALKENESTOPIC 23 Questionsheet 5

I II IIIa) Name the alkenes I, II and III.

Alkene I ......................................................................................................................................................... [1]

Alkene II ....................................................................................................................................................... [1]

Alkene III ...................................................................................................................................................... [1]

b) Complete the following equations for the complete hydrogenation of alkenes I and II.

+ .......... H2

→ ∆Hê r = -119.6 kJ mol-1 [1]

+ .......... H2

→ ∆Hê r = -231.7 kJ mol-1 [1]

c) Use the molar enthalpies of hydrogenation shown in b) to draw what conclusions you can about the bondingbetween the carbon atoms in alkene II.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

d) How would you expect the lengths of the carbon-carbon bonds in alkene II to compare with one another? Inyour answer, refer to the bonds by the letters a, b, c, d, e and f as shown below.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

e) Estimate, with reasons, the molar enthalpy of hydrogenation of alkene III.

Estimate ......................................................................................................................................................... [1]

Reasons .............................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

a

b

cd

e

f

...............

...............


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BOND TYPE AND REACTIVITYTOPIC 23 Questionsheet 6

a) Alkenes are readily attacked by electrophiles, but alkanes resist attack by both electrophiles and nucleophiles.(i) Give two reasons for the high reactivity of alkenes towards electrophiles.

1 .................................................................................................................................................................

2 ............................................................................................................................................................. [2]

(ii) Give two reasons for the low reactivity of alkanes.

1 .................................................................................................................................................................

2 ............................................................................................................................................................. [2]

b) The negative inductive effect (-I effect) is said to be responsible for the nucleophilic substitution reactions ofhaloalkanes.(i) What is the immediate consequence of the ‘negative inductive effect’, and what is responsible for it?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

(ii) List the haloalkanes RBr, RCl and RI in increasing order of reactivity in nucleophilic substitution reactions.

....................................................................................................................................................................... [1]

(iii) Explain your answer to b)(ii).

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

c) Despite the strength of the C=O bond (average bond enthalpy = 743 kJ mol-1), aldehydes and ketones reactreadily with numerous reagents, e.g. HCN.(i) What type of reagent attacks aldehydes and ketones?

....................................................................................................................................................................... [1]

(ii) Give two reasons why species such as CN- are strongly attracted to the carbonyl carbon atom of analdehyde or ketone.

1 .........................................................................................................................................................................

2 ..................................................................................................................................................................... [2]

(iii)When HCN reacts with an aldehyde or ketone, why does an addition reaction occur rather than substitution?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

(iv) Species, such as CN-, which react with aldehydes and ketones, do not generally attack alkenes. Why is this?

....................................................................................................................................................................... [1]

(v) It can be argued that HCN should react with alkenes in the same way as HBr, yet this does not happen.Explain this.

...........................................................................................................................................................................

....................................................................................................................................................................... [2]17


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REACTION CONDITIONS AND PRODUCTTOPIC 23 Questionsheet 7

16

a) In the presence of ultraviolet light, methylbenzene reacts with chlorine to give (chloromethyl)benzene:

The mechanism resembles that for the chlorination of methane.(i) Name this mechanism.

....................................................................................................................................................................... [1]

(ii) What type of fission does the chlorine molecule undergo?

....................................................................................................................................................................... [1]

(iii) Write likely equations for the three mechanistic stages.Stage 1

[1]Stage 2

[2]Stage 3

[1]

b) In the absence of ultraviolet light, methylbenzene reacts with chlorine to give an entirely different product.(i) Write an equation for this reaction.

[1]

(ii) Name a suitable catalyst for the reaction.

....................................................................................................................................................................... [1]

(iii) What type of mechanism is involved?

....................................................................................................................................................................... [1]

(iv) What type of fission does the chlorine molecule undergo?

....................................................................................................................................................................... [1]

c) By referring to the chemistry of a haloalkane of your own choice, give another example of the way in whichthe product of a reaction can be completely altered by changing the conditions. In your answer you shouldmention reaction conditions, identity of products, and types of mechanism.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [6]

CH3

+ Cl2 → + HCl

CH2Cl


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NITRATION OF ARENES

14

a) Give the reagents, conditions and equation for the mononitration of benzene.

Reagents ........................................................................................................................................................ [2]

Conditions ..................................................................................................................................................... [1]

Equation

[1]

b) (i) In what way must the conditions be modified when carrying out the mononitration of methylbenzene(toluene)?

....................................................................................................................................................................... [1]

(ii) Suggest two ways in which the conditions could be changed so as to bring about dinitration or polynitrationof arenes.

1 .................................................................................................................................................................

2 ............................................................................................................................................................. [2]

(iii) Write down the formula of the end-product of the trinitration of methylbenzene and state the use of thiscompound.

Formula

[1]

Use......................................................................................................................................................... [1]

c) Nitroarenes can be converted to primary aromatic amines.

(i) Write an equation for the conversion of nitrobenzene to phenylamine.

....................................................................................................................................................................... [1]

(ii) What type of reaction is this?

....................................................................................................................................................................... [1]

(iii) What reagent (or reagents) would be used for this conversion in the laboratory?

....................................................................................................................................................................... [2]

(iv) Of what commercial importance is this type of reaction?

....................................................................................................................................................................... [1]



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11

HALOGENATION OF ARENES

a) Cyclohexene and benzene are both cyclic hydrocarbons with a six-membered carbon ring, yet they behavevery differently in their reactions with halogens.

(i) State the conditions and write an equation for the reaction between bromine and cyclohexene.

Conditions ............................................................................................................................................. [2]

Equation

[1]


....................................................................................................................................................................... [1]

b) (i) State the conditions and write an equation for the reaction between bromine and benzene.

Conditions ............................................................................................................................................. [2]

Equation

[1]


....................................................................................................................................................................... [1]

c) How do you account for the relative resistance to bromination of benzene compared with cyclohexene?

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]



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13

ALKYLATION AND ACYLATION OF ARENES

a) (i) Benzene can be converted into methylbenzene by a so-called Friedel-Crafts reaction. Name a suitablereagent for the conversion, state the reaction conditions, and write an equation.

Reagent .................................................................................................................................................. [1]

Conditions ............................................................................................................................................. [2]

Equation

[1]

(ii) What is the major disadvantage of this method of preparing methylbenzene?

....................................................................................................................................................................... [1]

(iii) How could methylbenzene be converted into benzenecarboxylic acid? State the type of reaction andsuggest a suitable reagent.

Type of reagent ...................................................................................................................................... [1]

Reagent .................................................................................................................................................. [1]

b) (i) How does benzene react with ethanoyl chloride? State the reaction conditions, write an equation andname the product.

Conditions ............................................................................................................................................. [2]

Equation

[1]

Name of product .................................................................................................................................... [1]

(ii) How could the product of b)(i) be converted into 1-phenylethanol? State the type of reaction and suggesta suitable reagent.

Type of reaction ..................................................................................................................................... [1]

Reagent .................................................................................................................................................. [1]



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18

PHENOL

a)

Compounds I-IV are all aromatic hydroxy-compounds, yet not all of them are phenols. Identify the phenolsand give the basis of your identification.

Identity of phenols ......................................................................................................................................... [1]

Basis of identification ........................................................................................................................................

....................................................................................................................................................................... [1]

b) (i) To demonstrate its acidic character, phenol (which has a low solubility in water) can be dissolved inaqueous sodium hydroxide to give a colourless solution, A. On adding dilute hydrochloric acid, thissolution becomes cloudy at first and then separates to give a colourless oil, B, as a lower layer. IdentifyA and B, and write equations for the reactions involved.

Identity of A .......................................................................................................................................... [1]

Identity of B ......................................................................................................................................... [1]

Equations

[2]

(ii) Give two reasons which together explain the fact that phenols are acidic, although alcohols have almostno acidic properties.

Reason 1 ....................................................................................................................................................

............................................................................................................................................................... [3]

Reason 2 ....................................................................................................................................................

............................................................................................................................................................... [3]

c) (i) State what is observed when bromine water is added to an aqueous solution of phenol.

....................................................................................................................................................................... [1]

(ii) Write an equation for the reaction.

[1]

(iii) How do you account for the relative ease of bromination of phenol compared with benzene?

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

d) State one use of phenols in everyday life.

....................................................................................................................................................................... [1]

OH CH2OHCH3

OH

OH

OHI II III IV



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10

ALDEHYDES AND KETONES

a) A CH3CH

2CHO B (CH

3)

2CHCHO C CH

3CH

2COCH

3

From the above list, select all the compounds which satisfy the following requirements. Write down theirletters and name them.

(i) Could be reduced to a secondary alcohol.

....................................................................................................................................................................... [1]

(ii) Could be oxidised to a carboxylic acid.

....................................................................................................................................................................... [2]


b) Aldehydes can be distinguished from ketones by their reaction with Tollens’ reagent (ammoniacal silver nitrateor diammine silver(1))(i) Describe what you would see with an aldehyde

....................................................................................................................................................................... [1]

(ii) What would propanal become when treated with Tollens’ reagent

....................................................................................................................................................................... [1]

(iii) Name a reagent that could be used in place of Tollens’ reagent for this test and state the observation withthe aldehyde.

Reagent .....................................................................................................................................................

Observation ..............................................................................................................................................

............................................................................................................................................................... [2]

c) Aldehydes and ketones can be reduced to alcohols by a reducing agent.(i) Name a reducing agent

....................................................................................................................................................................... [1]

(ii) State the conditions under which this reagent is used...

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [2]


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USE OF 2,4-DINITROPHENYLHYDRAZINE

A compound contains C 69.8% H 11.6% O 18.6%Its mass spectrum shows that its relative molecular mass is 86. On treatment with 2,4-dinitrophenylhydrazine,an orange-yellow crystalline precipitate is produced.

a) Determine the molecular formula of the compound.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

b) Give the structural formulae of all the relevant isomers and classify each one as an aldehyde or a ketone.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [7]

c) Write an equation to show how any one of these compounds will react with 2,4-dinitrophenylhydrazine.

[2]

d) Give one chemical method of distinguishing the aldehydes from the ketones. State the reagent you woulduse, the conditions of the test, and what would expect to observe with aldehydes and with ketones.

Test ................................................................................................................................................................. [1]

Conditions ..................................................................................................................................................... [1]

Observation with aldehydes .......................................................................................................................... [1]

Observation with ketones ........................................................................................................................... [1]

e) The precipitate obtained when an aldehyde or ketone is reacted with 2,4-dinitrophenylhydrazine can be used toidentify the original compound if its melting point is determined.(i) How can this melting point be used to identify the original carbonyl compound?

....................................................................................................................................................................... [1](ii) What must be done to the precipitate before the melting point is determined and why?

....................................................................................................................................................................... [3]



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14

THE TRIIODOMETHANE REACTION

a) Ethanal reacts with a solution of iodine in KI(aq), followed by a limited amount of NaOH(aq), to givetriiodomethane.

(i) What is observed?

....................................................................................................................................................................... [1]

(ii) Write balanced chemical equations for the two reactions which occur.

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

(iii) If excess NaOH(aq) is used, no precipitate is formed. Suggest what causes this difference

....................................................................................................................................................................... [1]

(iv) Explain why a mixture of KI(aq) and NaClO(aq) could be used instead of iodine solution.

...........................................................................................................................................................................

...................................................................................................................................................................... [2]

b) The group CH3CO is essential for the production of triiodomethane. Bearing this in mind, suggest why

(i) compounds with the CH3CH(OH) group undergo this reaction

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

(ii) compounds with the CH3COO- group do not undergo this reaction

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

c) Study the following compounds, and write down the reference letters of all those which will producetriiodomethane on treatment with iodine and sodium hydroxide.

A C6H

5COCH

3F CH

3CH(OH)CH

3

B C6H

5COOCH

3G CH

3CH(OH)C

2H

5

C C6H

5COC

2H

5H (CH

3)

3COH

D CH3CH

2CHO I C

2H

5CH(OH)C

2H

5

E CH3COC

2H

5J CH

3CH

2CH

2CH

2OH

....................................................................................................................................................................... [4]



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16

GRIGNARD REAGENTS

a) Describe the preparation of methylmagnesium iodide and write an equation for its formation.

Preparation ........................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

Equation ........................................................................................................................................................ [4]

b) Starting from methylmagnesium iodide, how would you prepare (i) ethanol, and (ii) ethanoic acid?In each case name the required reagent, show the structure of the intermediate, and state any necessaryconditions for the second stage.

(i) Ethanol

Reagent .................................................................................................................................................. [1]

Intermediate

[1]

Conditions for second stage .................................................................................................................. [1]

(ii) Ethanoic acid

Reagent .................................................................................................................................................. [1]

Intermediate

[1]

Conditions for second stage .................................................................................................................. [1]

c) Methylmagnesium iodide was allowed to react with each of two isomeric compounds A and B of molecularformula C

3H

6O. The final products were isomeric compounds C and D, of molecular formula C

4H

10O. The

mass spectrum of C showed peaks at m/z values of 29 and 30, but that of D did not. Identify A, B, C and D,and suggest the species responsible for the peaks mentioned in the mass spectrum of C.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

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....................................................................................................................................................................... [6]



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15

CARBOXYLIC ACIDS I

a) Ethanoic acid reacts with (i) aqueous potassium hydroxide, and (ii) solid magnesium oxide?Name the product and type of reaction in each case, and give a balanced equation.

(i) aqueous potassium hydroxide

Product ................................................................................................................................................. [1]

Type of reaction ................................................................................................................................... [1]

Equation ............................................................................................................................................... [1]

(ii) solid magnesium oxide

Product ................................................................................................................................................. [1]

Type of reaction ................................................................................................................................... [1]

Equation ............................................................................................................................................... [1]

b) Give a reagent that can be used, at room temperature, to show that an unknown organic compound is acarboxylic acid rather than an alcohol. State your expected observation, and write an equation to show thisreagent reacting with a carboxylic acid, RCOOH.

Reagent ......................................................................................................................................................... [1]

Observation .................................................................................................................................................. [1]

Equation ....................................................................................................................................................... [1]

c) Butyl ethanoate (‘pear drops’) is a useful solvent for cellulose lacquers, but occurs naturally only in traces.How can it be made synthetically? Name the reagents you would use, state the reaction conditions, write anequation and describe the type of reaction occurring.

Reagents ........................................................................................................................................................ [3]

Conditions ..................................................................................................................................................... [1]

Equation ........................................................................................................................................................ [1]

Type of reaction .................................................................................................................................................

....................................................................................................................................................................... [1]



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20

CARBOXYLIC ACIDS IIa) How do you explain the following facts?

(i) Carboxylic acids have lower pKa values than alcohols, showing that they are more strongly acidic.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

(ii) Trichloroethanoic acid is a relatively strong carboxylic acid.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

b) Starting with propanoic acid, how could you obtain (i) propanoyl chloride and then (ii) propanamide? Givea reagent and write an equation for each reaction.

(i) Reagent .................................................................................................................................................. [1]

Equation ................................................................................................................................................ [1]

(ii) Reagent .................................................................................................................................................. [1]

Equation ................................................................................................................................................ [1]

c) Benzene-1,4-dicarboxylic acid has the normal reactions of a carboxylic acid. Describe how would you expectit to react with each of the following reagents and give the formula of the organic product.

(i) Aqueous sodium carbonate

Description ................................................................................................................................................

............................................................................................................................................................... [2]

Formula of product ............................................................................................................................... [1]

(ii) Methanol

Description ................................................................................................................................................

............................................................................................................................................................... [2]

Formula of product .............................................................................................................................. [1]

d) Benzene-1,2-dicarboxylic acid is an isomer of benzene-1,4-dicarboxylic acid. Which of the two isomerswould you expect to have the higher melting point? Give your reasons.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]



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16

ACYL CHLORIDES

a) The ester, ethyl propanoate, can be prepared by the reaction between ethanol and propanoic acid. This method,however, is not entirely satisfactory. Name an acyl chloride which could be used instead of propanoic acid,and state two advantages and two disadvantages of doing so.

Name .............................................................................................................................................................. [1]

Two advantages .................................................................................................................................................

....................................................................................................................................................................... [2]

Two disadvantages ............................................................................................................................................

....................................................................................................................................................................... [2]

b) Acyl chlorides can also be used to prepare other derivatives of carboxylic acids, such as amides.

(i) What acyl chloride and what reagent would be needed to prepare benzenecarboxamide (benzamide)?

Acyl chloride ......................................................................................................................................... [1]

Reagent .................................................................................................................................................. [1]


....................................................................................................................................................................... [1]

(iii) What problem might be encountered when carrying out such preparations in the laboratory? Explain thechemical origin of the problem, and state what precaution could be taken to minimise it.

Problem ................................................................................................................................................. [1]

Origin .................................................................................................................................................... [1]

Precaution ............................................................................................................................................. [1]

c) Certain acyl chlorides are useful reagents for the positive identification of amines.

(i) Describe how ethanoyl chloride can be used to confirm the identity of an amine, believed (from itsboiling point) to be ethylamine.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

(ii) Write an equation for the reaction occurring in c)(i) and name the product.

Equation ................................................................................................................................................ [1]

Name ..................................................................................................................................................... [1]



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17

ESTERS

a) Give the structural formulae and names of three isomeric esters of molecular formula C4H

8O

2.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [6]

b) Study the following scheme and answer the questions below.

Conversion 1

O

CH2 – O – C – CH

2CH

2CH

3

CH2 – O – C – CH

2CH

2CH

3

O

Compound 1 Compound II Compound III

(i) Complete Conversion 1 by writing down the structural formulae of Compound II (molecular formulaC

2H

6O

2) and Compound III (C

4H

8O

2)

[2]

(ii) What types of compound are I, II and III?

Compound I ........................................................................................................................................... [1]

Compound II .......................................................................................................................................... [1]

Compound III ........................................................................................................................................ [1]

(iii) What type of reaction is represented by Conversion 1?

....................................................................................................................................................................... [1]

(iv) Why is Conversion 1 carried out using aqueous sodium hydroxide rather than aqueous mineral acid?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

c) Give three commercial applications of esters.

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

Boil under reflux with NaOH(aq)

Then acidify with dil. HCl(aq).............................. + ..............................



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15

NITRILES

4.0 g of an aliphatic nitrile, G, was boiled under reflux with excess sodium hydroxide solution until reaction wascomplete. The reaction mixture was then acidified with excess dilute sulfuric acid to displace the organic acid, H.After distillation, a total of 4.5 g of H were recovered. 1.0 g of H was then diluted to 250 cm3 with water; 25.0cm3 of this solution required 16.65 cm3 of 0.1 M sodium hydroxide solution for complete neutralisation.

a) Calculate the relative molecular mass of H.

...........................................................................................................................................................................

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

b) Identify H, and hence identify G.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

c) Write the equation for:

(i) the reaction of G with aqueous sodium hydroxide.

....................................................................................................................................................................... [1]

(ii) the subsequent reaction with dilute sulfuric acid.

....................................................................................................................................................................... [1]

d) Calculate the percentage yield of H.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

e) How could the nitrile G be reduced? Suggest a suitable reducing agent, together with any conditions, andwrite an equation.

Reducing agent .............................................................................................................................................. [1]

Conditions ..................................................................................................................................................... [1]

Equation ........................................................................................................................................................ [1]



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14

AMIDES

a) It is possible to convert an amide into two primary amines. Scheme A shows how ethanamide can be convertedto ethylamine. How can it be converted to methylamine?

Scheme A

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

b) Nitriles have been described as the ‘anhydrides of amides’.(i) Give the name and formula of the nitrile which can be regarded as the anhydride of ethanamide.

....................................................................................................................................................................... [2]

(ii) How can ethanamide be converted into the nitrile you have named in b)(i)?

....................................................................................................................................................................... [2]

(iii) What type of reaction is this?

....................................................................................................................................................................... [1]

c) Amides, like esters, can be hydrolysed in either acidic or alkaline solution. These reactions can be used in thelaboratory to detect the presence of an amide, as illustrated for ethanamide by Scheme B.

Scheme B Solution A

Solution B + Gas C

Solution A smells of vinegar, and gas C, which has a characteristic smell, turns moist red litmus paper blue.Identify the smelly compound in Solution A, the compound in Solution B, and also gas C.

Smelly compound in Solution A ..................................................................................................................... [1]

Compound in Solution B ............................................................................................................................... [1]

Gas C ............................................................................................................................................................. [1]

d) All amides contain the following group of atoms : – C – N – This group forms a link in various long chainmolecules.(i) What name is given to this link?

....................................................................................................................................................................... [1]

(ii) Name a synthetic polymer containing this link.

....................................................................................................................................................................... [1]

(iii) What type of natural polymer contains this link?

....................................................................................................................................................................... [1]

Li[AlH4]

Ethylamine

Methylamine

CH3CONH

2

Ethanamide

CH3CH

2NH

2

CH3NH

2

Boil with H2SO4

(aq)

CH3CONH

2 Boil with NaOH(aq)

O H

in dry ether



TOTAL /

A2 Level

20

AMINES

a) (i) Write an ionic equation to show why an aqueous solution of methylamine is alkaline.

....................................................................................................................................................................... [1]

(ii) Use your equation to explain why, on adding NaOH(aq), the fishy, ammoniacal smell of methylamineis intensified.

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

b) Although phenylamine is almost insoluble in water, it dissolves readily in dilute hydrochloric acid to give acolourless solution of compound A. On neutralising this solution with aqueous sodium hydroxide, a colourless,oily liquid, B is formed. Name compounds A and B, and write equations for the two reactions.

Name of A .................................................................................................................................................... [1]

Name of B .................................................................................................................................................... [1]

Equation 1 .................................................................................................................................................... [1]

Equation 2 .................................................................................................................................................... [1]

c) State whether (i) ethylamine, and (ii) phenylamine is a weaker or stronger base than ammonia, and givereasons for your answers in both cases.

(i) EthylamineStrength compared with ammonia ......................................................................................................... [1]

Reasons .....................................................................................................................................................

...................................................................................................................................................................

............................................................................................................................................................... [3]

(ii) PhenylamineStrength compared with ammonia ......................................................................................................... [1]

Reasons .....................................................................................................................................................

...................................................................................................................................................................

............................................................................................................................................................... [3]

d) The acylation of amines is useful in their identification. The product is purified by recrystallisation, afterwhich its melting point is determined and compared with published values in a data book.

(i) What is meant by the term ‘acylation’?

....................................................................................................................................................................... [2]

(ii) Name a suitable acylating agent.

....................................................................................................................................................................... [1]

(iii) What type of compound is the product?

....................................................................................................................................................................... [1]

(iv) Write an equation to show phenylamine reacting with the reagent you have chosen in d)(ii).

....................................................................................................................................................................... [1]



TOTAL /

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17

DIAZOTISATION

a) (i) What is the meaning of the term ‘diazotisation’?

....................................................................................................................................................................... [1]

(ii) Name the compounds you would use in the laboratory for the diazotisation of phenylamine. Also namethe product, and write the equation for the reaction.

Compound needed for diazotisation ..................................................................................................... [2]

Name of product .................................................................................................................................... [1]

Equation ................................................................................................................................................ [1]

(iii) Give the optimum temperature (or temperature range) for the diazotisation of phenylamine, and state theproblems that would be encountered if the temperature were too high or too low.

Optimum temperature ........................................................................................................................... [1]

Problem if the temperature were too high .................................................................................................

............................................................................................................................................................... [2]

Problem if the temperature were too low .............................................................................................. [1]

b) (i) How does the product from a)(ii) react with 2-naphthol (β-naphthol)?Give the conditions, state what you would observe as a result of this reaction, and write an equation.

Conditions ............................................................................................................................................. [2]

Observation ........................................................................................................................................... [1]

Equation

[2]

(ii) What name is given to the type of reaction in b)(i)?

....................................................................................................................................................................... [1]

c) How would the type of reaction in b) help you to distinguish between the following compounds?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

NH2

CH3

CH2NH

2

A B



TOTAL /

A2 Level

13

AMINO ACIDS

a) Naturally occurring amino acids are described as α-amino acids. Write down the general formula of anα-amino acid.

....................................................................................................................................................................... [1]

b) Glycine, H2NCH

2COOH, and glycollic acid, HOCH

2COOH, have very similar relative molecular masses, yet the

melting point of glycine (232 °C) is much higher than that of glycollic acid (79 °C). How can you explain this?

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [4]

c) (i) Experiments on electrophoresis, i.e. the movement of charged particles in an electric field, show that, inaqueous solution at low pH, amino acid particles migrate to the negative electrode, while at high pHthey move to the positive electrode. Write ionic equations to show the formation of particles responsiblefor electrophoresis at low and high pH values.

Equation (low pH) ................................................................................................................................. [1]

Equation (high pH) ............................................................................................................................... [1]

(ii) At an intermediate pH, there is no electrophoretic movement. Why?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]

d) (i) CH3 CH

2OH

H2N – CH – COOH H

2N – CH – COOH

Alanine Serine

The two amino acids alanine and serine, shown above, can combine together by an enzyme catalysedreaction to form one of two dipeptides; compounds which are essentially amides. Write equations toshow the formation of two different dipeptides from alanine and serine.

[2]

(ii) Although the two dipeptides in d)(i) are amino acids, they are not α-amino acids. Explain this statement.

...........................................................................................................................................................................

...........................................................................................................................................................................

....................................................................................................................................................................... [2]



TOTAL /

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13

PROTEINS

a) Proteins and polypeptides are natural polymers derived from α-amino acid molecules.

(i) Give the name and formula of the link between the amino acid molecules.

Name .............................................................................................................................................................. [1]

Formula ......................................................................................................................................................... [1]

(ii) What type of polymerisation is involved?

....................................................................................................................................................................... [1]

(iii) Explain why it is that the same combination of amino acids can give rise to different proteins orpolypeptides.

....................................................................................................................................................................... [1]

(iv) Give one difference between a protein and a polypeptide.

....................................................................................................................................................................... [1]

b) State two ways in which the structure of a protein depends on hydrogen bonding.

1 .........................................................................................................................................................................

2 ..................................................................................................................................................................... [2]

c) (i) To identify its constituent amino acids, a protein must first be broken down into those amino acids. Howcan this be achieved in the laboratory?

...........................................................................................................................................................................

....................................................................................................................................................................... [3]

(ii) Suggest a method by which the individual amino acids could then be separated and identified.

....................................................................................................................................................................... [1]

d) Insulin, used in the treatment of diabetes, is a peptide which is taken by injection through the skin. Whycannot medicines, of which the active ingredient is a peptide, be taken by mouth?

...........................................................................................................................................................................

....................................................................................................................................................................... [2]



TOTAL /

A2 Level

TEST QUESTION 1CARBONYL COMPOUNDS


Below is the skeletal formula of testosterone.

a) What is its molecular formula?

....................................................................................................................................................................... [1]

b) State what you would expect to see when it is treated with the following reagents:(i) Brady’s reagent (2,4-dinitrophenylhydrazine)

....................................................................................................................................................................... [1](ii) Heating under reflux with acidified potassium dichromate(VI)

....................................................................................................................................................................... [1](iii) Aqueous bromine

....................................................................................................................................................................... [1]

c) Draw the skeletal formula of the compound that you would expect to be formed when testosterone is treatedwith either aqueous sodium borohydride or lithium aluminium hydride in dry ether.

[2]

d) Draw the skeletal formula of the compound that you would expect to be formed when testosterone is heatedunder reflux with acidified potassium dichromate(VI)

[2]

(Continued...)

CH3

OH

CH3

O


TOTAL /

A2 Level

TEST QUESTION 1CARBONYL COMPOUNDS

TOPIC 23 Questionsheet 26 Continued

12

e) Z-hex-3-enal (

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