Chemistry, Third edition

ANSWERS TO EXERCISES AND REVISION QUESTIONS

(iii) CH 3 —CN—NH 2 (iv) CH 3 CH 2 COOH

|

H

18I

(i)butanoic acid (ii)heptanoic acid

(iii)butane-1,4-dioic acid.

18J

(i)CH 3 COOH, CH 2 BrCOOH, CH 2 ClCOOH, CHCl 2 COOH,

CCl 3 COOH, CF 3 COOH

(chlorine is more electronegative than bromine).

18K

(i)(a) methyl ethanoate CH 3 COOCH 3

(b) ethyl octanoate C 7 H 15 COOCH 2 CH 3

(c) methyl methanoate HCOOCH 3

(d) diethyl oxalate ( diethyl ethanedioate) (COOCH 2 CH 3 ) 2.

(ii)(a) propanoic acid, methanol

(b) methanoic acid, ethanol

(c) ethanoic acid, propan-1-ol

(d) chloroethanoic acid, methanol.

18L

NH 3 , CH 3 NH 2 , CH 3 NHCH 3.

18M

(i)Middle C has an asterisk.

(ii)2 methylbutan-1-ol, 2-bromo-1-chlorobutane.

18N

(i)

(ii) CH 3 CHCOO–

|

NH 3 +

18O

(i)

O

||

H 2 NCH 2 C—NHCHCOOH

|

CH 3

(ii)Gly-Ala-Cys, Gly-Cys-Ala, Cys-Gly-Ala, Cys-Ala-Gly,

Ala-Cys-Gly, Ala-Gly-Cys (six in all)

Revision questions

18.1 (i) CH 3 CH 2 CH 2 CH 2 CHOHCH 3

(ii) CH 3 COHCH 3

|

CH 3

(iii) CH 2 OHCH 2 CHOHCH 3

(iv)

18.2ethanol, water, phenol, ethanoic acid.

18.3

(i) CH 3 CH 2 CH 2 CHCH 2 CHO

|

CH 3

Notice the aldehyde group contains the carbon atom

numbered 1.

(ii) CH 3 COCH 2 COCH 3 (iii)

(iv) CH 3 CHCOOH (v) COOH

||

CH 3 CH 2

|

CH 2

|

COOH

18.4oxalic acid

18.5 (i)CH 3 CH 2 COOCH 2 CH 3 (ii)CH 3 CH 2 CH 2 OH

(iii)CH 3 (CH 2 ) 3 COOH (iv)CH 3 COOH

18.6 (i)HCOOCH 2 CH 2 CH 3 (ii)HCONH 2

(iii)HCOCl.

18.7 *

(i) CH 2 OHCHCOOH

|

NH 2

(ii)Yes, it has a carbon atom attached to four different

groups, marked ‘*’.

(iii) HO 2 CCHCOOH

|

NH 2

O

||

(iv) CH 2 OHCHC—NHCHCOOH

||

NH 2 CH 2 OH

18.8

18.9

18.10 (i)ester (ii)amino group

(iii)ester and carboxylic acid (iv)amide

(v)phenol, alcohol, amino (vi)halogen.

18.11 (i)X would form an orange precipitate with 2,4-

dinitrophenylhydrazine.

(ii)X would reduce Tollens’ reagent or Fehling’s solution.

(iii)CH 3 CH 2 CHO; to confirm this, check the melting point

of the DNP derivative against that in a data book.

Unit 19

Exercises

19A

Heat the sample of sea water to dryness, so that all the

water is evaporated off. The solid left would not be pure

sodium chloride, because sea water contains other

dissolved salts such as magnesium chloride and

potassium chloride.

19B

(i)A separating funnel.

(ii)Add mixture to water and stir separate sand off by

gravity filtration wash sand well and dry in an oven 

filtrate contains dissolved sugar evaporate water from

filtrate to obtain concentrated solution (solid sugar

decomposes when heated, so this is ‘safer’ than

evaporating solution to dryness) allow concentrated

solution to cool and sugar crystals should separate out

filter solution to remove sugar crystals.

(iii)Dissolve the mixture in water at a temperature just

less than 100 °C cool solution to 20 °C crystalline

potassium chlorate separates out, which can be removed

by filtering (potassium chloride remains in solution).

(iv)Fractional distillation will result in a mixture much

more rich in the volatile component (the one that boils at

60 °C) collecting in the receiving container.

(v)Simple distillation.

19C

(i)Let the amount of X in the organic layer bexg, then

K x/200

d^7 (1 x)/100

orx0.93 g.

(ii)First extraction: let the amount of X in the organic

layer be zg, then

K z/100

d^7 (1 z)/100

Thereforez0.875 g, i.e. 0.125 g left in the aqueous

layer.

Second extraction: let amount of X in organic layer be yg,

then

K y/100

d^7 (0.125 y)/100

Therefore,y0.109 g and the total amount extracted is

0.8750.1090.98 g

that is, 0.05 g more than for one extraction.

19D

(i)

R yz

ffor A xyz

(ii)

R z

ffor B xyz

Revision questions

19.1 (i)evaporation

(ii)simple distillation

(iii)fractional distillation

(iv)fractional distillation

(v)column chromatography

(vi)separation using a separating funnel

(vii)stir mixture in water filter to remove chalk 

evaporate off water from filtrate to give salt.

19.2Paper chromatography using propanone as solvent.

If substances are not all coloured, use a suitable method

to develop the spots.

19.3Sublimation – ammonium chloride ‘sublimes’,

potassium chloride does not.

19.4 (i)paper chromatography (or TLC)

(ii)column chromatography. Ethanol can be used as

solvent in both techniques.

19.5Paper chromatography spot urine and spots of

amino acids it is thought to contain on the paper run

chromatogram using a suitable solvent (water) 

develop colourless spots by spraying with ninhydrin.

19.6Gas chromatography compare retention times of

components of mixture with the retention times of known

alcohols (or use GC–MS!).

19.7Paper chromatography compare pattern of spots

of suspect ink with a sample of ink obtained from the

forged cheque.

19.8Let mass extracted be xg, then

3.5 x/50

(0.5 x)/150

i.e.x0.27 g.

19.9

(i)Area ABC 1/2 16  40 320 mm^2

Area PQR 1/2 20  32 320 mm^2

(ii)The same area under each of the peaks suggests there

are equal amounts of each constituent in the mixture.

(iii)You could cut out each peak from the chart and

weigh them, then compare masses.

19.10Dissolve ‘dyes’ from smarties by stirring them in a

littlewater. Use paper chromatography to see if more

than one spot occurs.

Unit 20

Exercises

20A

Rearranging,

 cgives c

 98 MHz 98 000 000 Hz, therefore

 3.00^10

8

9.8 107 3.1 m

449

0230_000118_2 9 _Ans.qxd 3/2/06 2:22 pm Page 449