Chemistry, Third edition

(Wang) #1
ANSWERS TO EXERCISES AND REVISION QUESTIONS

equals its initial concentration, and applying the
equilibrium law,

Ka [HCO^3


  • (aq)][H 3 O+(aq)]
    [CO 2 (aq)]
    If the only acidity is due to dissolved carbon dioxide,
    [HCO 3 – (aq)][H 3 O+(aq)], giving


Ka [H^3 O

+(aq)] 2
[CO 2 (aq)]
(ii)[H 3 O+(aq)] (4.3 10 –^7 4.0 10 –^2 )
1.3 10 –^4 mol dm–^3
(corresponding to 0.3% ionization).
pHlog (1.3 10 –^4 )3.89
16.8 (i)WB–SA, therefore acidic (ii)WA–WB,KaKb
so approximately neutral (iii)WB–SA, therefore acidic
(iv)SA–SB, therefore neutral (v)SB–WA, so basic.
16.9M(C 6 H 5 COOH)122 g mol–^1 ,
M(C 6 H 5 COONa)144 g mol–^1
Number of moles of C 6 H 5 COOH0.100/122
8.20 10 –^4.
Number of moles of C 6 H 5 COONa0.080/144
5.6 10 –^4.
Concentration of (C 6 H 5 COOH ) 8.2 10 –^4 / 0.100
8.2 10 –^3 mol dm–^3.
Concentration of (C 6 H 5 COONa ) 5.6 10 –^4 / 0.100
5.6 10 –^3 mol dm–^3.

[H 3 O+(aq) CAKa(T) 8.20^10

– (^3) 6.5 10 – 5
Cs 5.6 10 –^3
9.5 10 –^5 mol dm–^3
pHlog (9.5 10 –^5 )4.02
C 6 H 5 COOH(aq)H 2 O(l) C 6 H 5 COO–(aq)H 3 O+(aq)
Explanation of buffer action is as follows. (a) Addition of
H 3 O+(aq) causes association of the C 6 H 5 COO–(aq) and
H 3 O+(aq), so restoring [H 3 O+(aq)]. (b) Addition of OH–(aq)
neutralizes H 3 O+(aq), and more benzoic acid ionizes to
compensate.
16.10Choice of indicators from Table 16.4 for a weak
base–strong acid titration are bromocresol green and
methyl red. The remaining indicators begin to change
colour before or after the pH at the equivalence point
( pH 4–8).
16.11The ingested hydrogencarbonate increases the
buffer capacity of the athlete.
Unit 17
Exercises
17A
(i)
(ii)
(iii)C 12 H 26
17B
17C
(i) (ii)
(iii)
17D
(i)2-methylpropane
(ii)4-ethylheptane
(iii)2,2-dimethylpropane
(iv)4-ethyl-3,5-dimethyloctane
17E
(i)
(ii)
(iii)
(iv)
17F
(i)n-butane (ii)399 K
17G
(i)CnH 2 n
(ii)The ring is far less ‘strained’ – the bond angle is
larger than in cyclopropane.
(iii)
17H
(i)670, 660, 660, 620, 660; yes, usually around
660 kJ mol–^1
(ii)654 kJ mol–^1
(iii)–CH 2
(iv)4814 kJ mol–^1.
17I
(i)See Box 17.6 (ii)No, unlike ethane.
17J
(i)hex-1-ene
(ii)but-2-ene
(iii)4,4-dimethylpent-2-ene
(iv)3-bromoprop-1-ene
17K
(i) (ii)
(iii) (iv)
(v)
17L
(i)
(ii)geometric (iii)structural
(iv) 1istrans-1,2-dibromoethene, 2 iscis-1,2-
dibromoethene, 3 is 1,1-dibromoethene.
17M
(i)CH 2 CH 2 HBrCH 3 – CH 2 Br (bromoethane)
(ii)CH 2 CH 2 H 2 SO 4 CH 3 – CH 2 – OSO 3 H (ethyl
hydrogensulfate)
(iii)CH 3 – CHCH 2 Br 2 CH 3 – CHBr–CH 2 Br (1,2-
dibromopropane)
(iv)CH 3 – CHOH–CH 2 OH
(v)n(CH 2 CHCN)···CH 2 – CHCN–CH 2 – CHCN–CH 2 –
CHCN–CH 2 – CHCN–CH 2 – CHCN···.
17N
(i)CH 3 – CH 2 CCH
(ii)propene, CH 3 – CHCH 2 and propane, CH 3 CH 2 CH 3
(iii)CHBr 2 – CHBr 2 1,1,2,2-tetrabromoethane.
17O
(i)
mass of C present 21.99^1244 6.00 mg
percentage C 7.02^6  100 85.5%
mass of H present 8.95^2
18 1 mg
percentage H 7.02^1  100 14.3%
Empirical formula:
CH
no of moles 85.5 14.3 12 1
ratio 7.1 : 14.3
1 : 2
Therefore, the empirical formula is CH 2.
(ii)molecular formula X C 3 H 6 , structure CH 3 – CHCH 2
Y is CH 3 CH 2 CH 3
Z is CH 3 CHBrCH 2 Br
17P
(i)
(ii) 3   119 357 kJ mol–^1
(iii)Benzene has a lower enthalpy of formation than that
suggested by the Kekulé structure.



  • 3 H 2
    3 = C
    Br
    BrH
    H
    H
    C
    CH 3 CH 2 CH 2 CHBrCH CH 2
    CH 2 ClC CH 2
    CH 3
    CH 3 CH 2 CH 2 C CCH 3
    CH 3 CH 3
    CH 3 CCH 2
    CH 3 CH 2 CH CHCH 2 CH 3 CH 3
    C 6 H 12
    Cyclohexane
    CHCH 22
    CH 2
    CH 2
    H 2 C CH 2
    H 2 C
    C 6 H 14
    Hexane
    CH 3 CH 2 CH 2 CH 2 CH 2 CH 3
    Boiling point / K
    Number of carbon atoms
    0
    100
    300
    600
    510
    HH
    H
    C
    H
    HH
    H
    HCC
    C
    H
    HH
    CHH
    H
    C C
    HH
    H
    C
    H
    H
    C
    H
    H
    CH
    HH
    H
    C
    H
    HH
    HCC
    C
    H
    HH
    CHH
    H
    HH
    CC
    H
    H
    C
    H
    H
    C
    H
    H
    CH
    H H
    H
    C
    C
    H
    H
    HH
    H
    HCC
    C
    H
    HH
    HH
    C
    H
    H
    C
    H
    C
    H
    H
    C
    H
    H
    C
    H
    H
    CH
    HH HH
    H
    C
    H
    H
    HH
    H
    HHCC C
    H
    H
    C C
    H H
    H
    C
    C
    H
    H
    HH
    H
    HHCC
    HH
    C
    HHHH
    H
    C
    H
    H
    HH
    H
    HHCCCC
    HHHHH
    HHHHH
    HHCCCCC
    C C
    H H
    H H
    H H
    HHHHHH H
    HHHHHH H
    C
    C 8 H 18
    HHCCCCC
    H
    H
    CC
    H
    H
    HHC
    H
    H
    C
    H
    H
    HHC
    H
    H
    C
    H
    H
    C
    447
    0230_000118_2 9 _Ans.qxd 3/2/06 2:22 pm Page 447

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